Kai no Kiseki - English Summary - Act 3 Kevin Route 3

Table of Contents

FINALLY NO 4SPGS

Kevin 3 begins with him aboard the Merkavah II Unit 5, en route to Creil, where nearly 100 Iscariots and Ashladd have also been deployed. Upon arriving near Creil, Kevin comments that the Picnic group visited two years ago, and then shares that Hamilton had been there earlier that morning.

Engaging in conversation with other Septian Church workers, one named Caesar reveals that they also retrieved the rental vehicle they had borrowed from Tharbad.

At the Grim Garten, Lapis notes that she cannot see Renne or Agnes, and Kevin remarks that Celis and Leon are conspicuously missing as well.

While on the road, they encounter Lila from Liberl's ZCF, along with Zita, Ashen, Lucrezia, Mint, and Rixia. Rufus and Mint share a humorous exchange, where her engineering blunders come to light, and Rufus recalls fixing a past issue during the Babel Incident, having been tipped off in advance by Professor Schmidt and Makarov.

Mint then meets the Picnic group, affectionately calling Nadia "Naa-chan" and referring to Lapis as "LapiLapi," much to Lapis’ irritation.

She also dubs Kevin "Negihamu" or "Onion Ham Head," which irks him as well. Gotti and Marielle soon join the group, with Marielle explaining that she came to confirm the future entrusted to her by Dingo.

Rixia and Lucrezia draw their weapons against Kevin and the Picnic group, stating that while they do not wish to fight, they cannot allow them to proceed.

After the battle concludes, Kevin permits everyone to accompany him in confronting the truth. At Ground Zero in Creil Village, Lila's Xipha app detects radiation, an app developed by Erica Russell. Mint mentions that she possesses a similar app created by George Nome. After the group disperses to explore Creil Village, Kevin tells the Picnic group that he had visited Creil Village a decade ago to retrieve a specific "Artifact." The group decides to visit different areas to pay their respects, though Lapis internally reflects on how, as a technological singularity robot intelligence, she feels neither loneliness nor sorrow over the village's destruction.

When talking to Gotti, he expresses his desire to honor the village by making a tribute movie. He recounts hearing from locals about an odd humanoid statue on the village outskirts during a movie shoot in Creil last year. Kevin admits that he was the one who retrieved it. Gotti then asks Kevin to elaborate on the statue so he can create a fitting tribute. Kevin reveals that he doesn’t fully understand its origins, but suspects it to be a remnant of spirit worship from before the Great Collapse and ancient Zemurian civilization.

Near the market ruins, the group speaks with Mint and Ashen, and they are all astonished by the complete absence of any trace of the market—it's as if it never existed. Lapis reminisces about eating a delicious apple and playing with children in the area. Swin adds that the group stayed in Creil for a month, and it became like a second home to them.

At Ground Zero, they find Marielle reflecting on the devastation caused by the nuclear explosion.

Rixia, deeply disturbed by the brutality of the event and the lack of human remains, asks Kevin if she can accompany him, clarifying that both she and Ashen are neutral and do not oppose his group. By talking to Rixia, the group learns that she must confront what lies ahead as Yin, with someone important waiting for her back in Crossbell. Lucrezia, similarly determined, says she wants to see things through to the end, even though the Society has no direct conflict with Hamilton. She reveals that her friend’s family, particularly Dominique, has a connection to Hamilton, and she wishes to uncover the truth behind their relationship. Marielle asks to join as well, but before any decisions are made, Lapis suddenly finds herself transported to Creil’s past—October 15th, 1208, at 11:45 AM.

As she walks through the past, she encounters three children she played with during her previous visit. Strangely, she also finds the present-day Marielle trapped in the past with her. Both Lapis and Marielle are abruptly returned to the present, and Lapis finally understands the true weight of loss after seeing the children who are no longer alive. Despite everything, she takes solace in knowing that at least Rashkar is still alive.

Marielle once again asks if she can accompany the group, but Kevin refuses. However, Rufus, to her surprise, insists she joins them, stating she too has the qualifications to witness the truth. On the hilltops, they encounter Celis, Rion, Naje, Sherid, and Hamilton, all praying and offering their thoughts to Creil Village, singing a hymn composed by Dominique Lancaster. Meanwhile, back at the village's ground level, the rest of the group is also engaged in prayer. This hymn has been passed down through generations, though it is revealed that it was actually created by Aramis, while Dominique learned it from Sheena Dirke herself.

Swin is shocked that the elderly woman had connections to such historical figures. Lucrezia finds it amusing that the First Generation Grimcat had a close relationship with Sheena.

Hamilton explains that after the events of Memento Orb 1 (Dominique’s backstory), Sheena helped Dominique transform her life from crime to singing, though Dominique led a double life. Another influential figure encouraged her to continue her past ways, aka Epstein. Rufus and Kevin greet Hamilton, but Rufus feels the exchange is one-sided, as Hamilton already knows about them. She confirms this, stating she was aware of the Elysium issue and Lapis being removed as its administrator.

The group discusses how Novartis is attempting to break into the Grim Garten to uncover the advancements in Marduk's technology. Kevin inquires about Hamilton's relationship with Sheena Dirke, and Hamilton explains that her mentor was none other than Claude Epstein, creator of the Trion Tower. That Hamilton, Sheena, and Liliya Epstein were key stakeholders in its construction.

The Alter Core then reveals a flashback of a younger Hamilton, Liliya, Dominique, and an adult Sheena Dirke, now with blonde hair (just in case you thought she had blue hair).

In this memory, Epstein gifts Dominique the Grimcat transformation device, though Dominique feels it's excessive for simply assisting with surveying for Trion Tower. The girls reassure her it's appropriate, considering how urbanization will unfold in the future. Epstein even offers to teach Dominique how to repair it, leaving its use up to her discretion.

Celis and Leon confirm this is different from Nina’s powers, and Hamilton clarifies that rather than witnessing a memory, they experienced the past itself—57 years ago—when Dominique received the Phantom Night Compact. Everyone had truly witnessed the events unfold in real-time. Hamilton identifies herself as the creator of the Alter Core.

Kevin, trying to comprehend the situation, asks how Hamilton could tamper with causality, something thought to be impossible. Rufus, equally curious, asks if Hamilton's ability to create impossible things, like the Remnants, ties into Gramheart’s plan. Hamilton reveals that Project Laeveteinn will soon be enacted, and depending on its outcome, the world could either end or be reborn. However, she clarifies that human souls are not "lost" in the process, suggesting it could be seen as a gospel.

Yet she insists that if people knew the whole truth, they wouldn’t accept it. Gramheart’s goal, she explains, is to find a solution through the power of human will to break free of their bonds.

Hamilton promises to remain inactive until she can confirm if Gramheart succeeds. She admits that the Remnants and Alter Cores were merely a "failsafe" or "insurance." She also confesses to spreading the Octo-Genesis throughout Calvard, knowing it would fall into the hands of Almata’s evil, yet she chose to watch from the sidelines. Additionally, she admits to manipulating Dingo Brad, exploiting his crisis for her benefit, even though he continued to help her after his death to verify the Eighth Genesis for the mission.

Swin accuses Hamilton of sitting idly by while Ace was impersonated, leading to Lapis being taken during Kuro 2. The group draws their weapons, declaring they can no longer overlook her crimes. Lucrezia then questions why Ixs left and what became of Arioch and Olympia. Hamilton admits she doesn’t fully understand Ixs’s situation, but hints that one of Lucrezia’s old acquaintances is involved in something else. Lucrezia simply nods in understanding.

At that moment, Celis, Rion, Sherid, and Naje, powered by the Alter Core, try to stop Kevin and the Picnic group from reaching Hamilton. Kevin declares that he is now on a Heretic Hunt.

After defeating them, Kevin readies his crossbow to aim at Hamilton, but Swin intervenes, insisting they still need to speak with her. Kevin, however, counters that this is why he never wanted to bring Swin and Nadia along in the first place.

Suddenly, the Picnic group and Kevin are ambushed by three Remnants dressed in white, overpowering them. One, dressed in teal, uses magic and speaks like a poet or artist; another, in purple, wields a sword and speaks like a commander; and the third, the Yellow Masked Knight, fights with a style reminiscent of Elaine's something that Rufus even notes during his brief fight, and she even strikes a pose that mirrors the one Nina took during her role as "Sheena Dirke" in the GLORIA: la revue play.

The chapter ends just as the countdown reaches zero, signaling the rocket launch. Hamilton watches closely, deciding to see whether or not the “Sword” will indeed destroy the “Cradle.”

What’s Out This Week? 3/29

Spring has sprung, our spirits (and the pollen count) are high, and our 25% Figurine Sale is still going strong til 4/1! 

A History Of Modern Manga HC - Insight Editions

The history of manga is inextricably linked to the social, economic, political, and cultural evolution of Japan. Essential to the daily lives of its inhabitants and to its economy, manga is one of the drivers of the international development of one of the world's largest economies. How did the manga market reach one billion copies annually in less than half a century? Who are the major players in this incredible expansion? Discover, over the pages and years, the major events and artists who have marked the history of modern manga in this new, updated and expanded edition.

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Kohei Sugihara, college student with hearing loss, and Taichi Sagawa, his ever-optimistic former classmate, met in a chance encounter that ignited an undeniable spark that would eventually blossom into love. Now it's spring and as Kohei nears graduation, his search for a job begins. Meanwhile, Taichi finds himself in charge of someone new at work. Life is busier than ever, but all in all, things seem to be looking up for the pair. That is, until the sudden appearance of Ena, one of Kohei's old flames.

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Yoichi Yamashita, spurred by a call informing him of his father's death, thinks of childhood. He returns to his hometown after a lengthy absence during which time he has not seen his father. As the relatives gather for the funeral and the stories start to flow, Yoichi's childhood starts to resurface. The Spring afternoons playing on the floor of his father's barber shop, the fire that ravaged the city and his family home, his parents' divorce and a new "mother." Through confidences and memories shared with those who knew him best, Yoichi rediscovers the man he had long considered an absent and rather cold father.

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Lady Sofia Baltimore, accompanied by an array of formidable companions, continues her war against the Nazis in an occult alternate Outerverse. High in the frozen Italian alps, a mercenary sorcerer has revealed a dangerous magical artifact. German forces will use it to obliterate Allied forces who stand against them . . . unless Sofia and Imogen can take possession of it first.    

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Brachytherapy Market Analysis, Size, Share, Growth, Trends, and Forecasts by 2031

The Global Brachytherapy Market stands as a testament to the advancement in medical technology and the continuous pursuit of innovative solutions in the healthcare industry. Brachytherapy, an integral component of cancer treatment, involves the insertion of radioactive sources directly into or near the tumor, providing localized radiation therapy. This industry encompasses a spectrum of products and services aimed at delivering precise and effective radiation therapy to cancer patients worldwide. 

𝐆𝐞𝐭 𝐚 𝐅𝐫𝐞𝐞 𝐒𝐚𝐦𝐩𝐥𝐞 𝐑𝐞𝐩𝐨𝐫𝐭:https://www.metastatinsight.com/request-sample/2734

Companies

AngioDynamics Inc.

Argon Medical Devices  Inc.

Becton, Dickinson, and Co.

CIVCO Medical Solutions

Eckert & Ziegler BEBIG

Elekta AB (pub)

Hologic, Inc.

iCAD, Inc.

IsoAid

Merit Medical Systems  Inc.

Siemens AG

Sun Nuclear Corporation

Theragenics Corporation

Varian Medical Systems, Inc

Mayo Foundation

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Brachytherapy has emerged as a promising alternative to traditional external beam radiation therapy, offering numerous advantages such as reduced treatment duration, minimized radiation exposure to surrounding healthy tissues, and enhanced treatment outcomes. As technology continues to evolve, the Global Brachytherapy Market witnesses the development of advanced brachytherapy devices, including high-dose rate (HDR) brachytherapy systems, low-dose rate (LDR) brachytherapy systems, and electronic brachytherapy (eBx) systems. 

In addition to technological advancements, the market is driven by the increasing incidence of cancer globally, particularly prostate, breast, cervical, and skin cancers. Moreover, rising awareness about the benefits of brachytherapy, coupled with growing healthcare expenditure in developing economies, contributes to the expansion of the market. Furthermore, collaborations between healthcare providers, research institutions, and industry players foster innovation and drive the adoption of brachytherapy for cancer treatment. 

The Global Brachytherapy Market is characterized by a diverse competitive landscape, with key players investing in research and development to introduce novel products and improve existing treatment modalities. These companies focus on enhancing the efficacy, safety, and patient comfort associated with brachytherapy procedures. Additionally, strategic initiatives such as mergers, acquisitions, and partnerships enable market players to expand their geographical presence and strengthen their market position. 

The Global Brachytherapy Market is poised for significant growth, fueled by ongoing technological advancements, increasing cancer prevalence, and rising demand for minimally invasive treatment options. Emerging trends such as the integration of artificial intelligence (AI) and robotics in brachytherapy procedures hold immense potential for enhancing treatment precision and optimizing patient outcomes. Moreover, the advent of personalized medicine and targeted therapies is expected to revolutionize cancer treatment paradigms, driving the adoption of brachytherapy as an integral component of multimodal therapy approaches. 

As the healthcare landscape continues to evolve, the Global Brachytherapy Market remains at the forefront of innovation, offering hope and healing to millions of cancer patients worldwide. With continued investments in research, development, and collaboration, the future of brachytherapy holds promise for improved cancer care and better patient outcomes. 

Global Brachytherapy market is estimated to reach $904.2 Million by 2031; growing at a CAGR of 4.7% from 2024 to 2031.

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The Future of Professional Service Robots: Market Size, Trends, and Competitive Landscape

The global professional service robots market size is expected to reach USD 71.65 billion by 2030, registering a CAGR of 11.3% from 2024 to 2030, according to a new report by Grand View Research, Inc. The logistics and healthcare sectors are driving the market growth as these robots hit the mainstream applications in these sectors and are expected to become a common practice on job sites and commercial venues. The market is expected to have a strong growth not only in the high-risk industry sectors but also in lifestyle and healthcare applications.

The military and defense applications segment is expected to grow at a steady rate during the forecast period. Robots are deployed in combat scenarios to gain tactical advantages over the enemy. They also help minimize the involvement of soldiers and reduce the number of victims in military actions. Unmanned ground vehicles (UGV) is the most used robot in defense and military applications. UGV is capable of operating outdoors, over a wide variety of terrain, and in high risk areas. Unmanned robots are actively being developed for both military and civilian use to perform complex and hazardous activities.

Mobile service robot is another field, which has gained prominence owing to its ability to perform complex assistance tasks with autonomous navigation. Advanced sensors and processes are incorporated in the robots to prevent them from colliding against humans and obstacles to ensure safety by providing real-time environmental monitoring in a three-dimensional space. Sophisticated user interfaces have been developed, which consider the entire range of communication channels. As a result, there has been a rapid growth of mobile service robots in inspection and maintenance applications. These robots are used for autonomous sewer inspection, remote visual and ultrasonic inspection of pipes, inspection of ferromagnetic structures in nuclear applications, and quick visual inspection of vessels, pipes, tanks, and large structures.

North America professional service robotics market is expected to exhibit steady growth over the forecast period. The region has witnessed the widespread adoption of professional service robots in healthcare applications for rehabilitation and assisting medical staff. A favorable funding scenario for research on assistive technologies is driving the growth of the robots market in North America. Moreover, the health crisis created by COVID-19 has developed huge stress on the healthcare industry resulting in the adoption of professional service robots in hospitals. In U.S., professional service robots played a crucial role in the country’s first case of COVID-19 detected at Everett, Washington. The telepresence robot was used for remote caregiving of the isolated patient.

Professional Service Robots Market Report Highlights

The articulated robots accounted for a leading revenue share of 35.7% in 2023. These robots are extensively deployed in industries to perform critical tasks, owing to their high efficiency, safety, and accuracy.

The healthcare segment accounted for a leading revenue share in 2023. Professional service robots are widely used in hospitals to improve the level of patient care offered by assisting the medical staff and enhancing operational efficiencies.

Europe led the market with 33.7% of the global revenue share in 2023. The well-established industrial and automotive sectors in regional economies such as the UK, Germany, and France have encouraged the adoption of advanced solutions, including service robots.

Asia Pacific is expected to register the fastest CAGR during the forecast period. The presence of economies such as China, Japan, and South Korea, which have made extensive advancements in their robotics and AI sectors, is expected to aid regional expansion.

Professional Service Robots Market Segmentation

Grand View Research has segmented global professional service robots market report based on type, end-use, and region:

Professional Service Robots Type Outlook (Revenue, USD Million, 2018 - 2030) 

Autonomous Mobile Robots (AMRs)

Articulated Robots

Humanoid Robots

Unmanned Aerial Vehicles (UAVs)

Others

Professional Service Robots End-use Outlook (Revenue, USD Million, 2018 - 2030) 

Logistics

Healthcare

Military & Defense

Inspection & Maintenance

Customer Service

Field Robots

Others

Professional Service Robots Regional Outlook (Revenue, USD Million, 2018 - 2030) 

North America

US

Canada

Mexico

Europe

UK

Germany

France

Asia Pacific

Japan

India

China

South Korea

Australia

Latin America

Brazil

Middle East & Africa

South Africa

Saudi Arabia

UAE

Key Players of Professional Service Robots Market

ABB

KUKA AG

iRobot Corporation

SoftBank Robotics Group

Honda Motor Co., Ltd.

FANUC CORPORATION

CYBERDYNE INC.

Daifuku Co., Ltd.

Boston Dynamics

Intuitive Surgical

Gecko Robotics, Inc.

Order a free sample PDF of the Professional Service Robots Market Intelligence Study, published by Grand View Research.

Global Anti-Nuclear Antibody (ANA) Testing Market Size, Growth Outlook 2035

The Anti-nuclear Antibody testing market size is expected to reach USD 1.6 billion by 2032 at 11.3% CAGR during the forecast period 2023-2032

Executive Summary

The global anti-nuclear antibody (ANA) testing market is experiencing significant growth due to the rising prevalence of autoimmune diseases, increasing awareness about early diagnosis, and technological advancements in diagnostic tools. ANA tests are essential for diagnosing systemic lupus erythematosus (SLE), rheumatoid arthritis, scleroderma, Sjögren’s syndrome, and other autoimmune disorders. With an increasing number of patients experiencing autoimmune-related symptoms, the demand for highly sensitive and automated ANA testing techniques is on the rise. However, false-positive results, high testing costs, and lack of standardization present challenges to market expansion.

Market Overview

ANA testing detects autoantibodies that mistakenly attack the body's own tissues, helping diagnose autoimmune conditions. These tests are conducted using techniques such as indirect immunofluorescence (IIF), enzyme-linked immunosorbent assay (ELISA), and multiplex immunoassay (MIA). The market is shifting towards automated systems, AI-based diagnostic solutions, and point-of-care ANA testing devices, improving accuracy and reducing turnaround time.

Market Size and Growth Analysis

The Anti-nuclear Antibody testing market size is expected to reach USD 1.6 billion by 2032 at 11.3% CAGR during the forecast period 2023-2032. The increasing prevalence of rheumatic diseases, advancements in laboratory automation, and growing healthcare expenditure are key drivers of this expansion.

Market Dynamics

Growth Drivers

Rising Autoimmune Disease Prevalence: Increasing cases of lupus, rheumatoid arthritis, and other autoimmune disorders are driving the demand for early and accurate diagnosis.

Technological Advancements in ANA Testing: Innovations such as fluorescent-based imaging, AI-powered diagnostics, and automation in laboratories are enhancing test reliability and efficiency.

Growing Awareness and Routine Screening Programs: Increasing government and private healthcare initiatives promoting autoimmune disease screening are expanding market reach.

Adoption of Automated and AI-Based Diagnostic Systems: The integration of AI and robotics in diagnostic laboratories is reducing human error and turnaround time, boosting test efficiency.

Challenges and Restraints

High Cost of Advanced ANA Testing Techniques: Advanced diagnostic tools require high capital investment and maintenance costs, limiting adoption in developing regions.

False Positives and Lack of Test Standardization: ANA tests sometimes yield false-positive results, leading to unnecessary follow-ups and additional costs.

Limited Access in Low-Income Countries: A lack of specialized laboratories and trained professionals in certain regions hampers market expansion.

Regional Analysis

North America

Largest market, driven by high healthcare spending, rising autoimmune disease prevalence, and widespread adoption of automated ANA testing solutions.

The United States dominates due to strong research initiatives and government support for autoimmune disease diagnosis.

Europe

Second-largest market, benefiting from favorable reimbursement policies, increasing patient awareness, and a well-established healthcare infrastructure.

Germany, France, and the UK lead the market due to advancements in diagnostic laboratories.

Asia-Pacific

Fastest-growing region, driven by a rising patient population, improved healthcare infrastructure, and increasing government investments in autoimmune disease research.

Countries like China, India, and Japan are expanding their diagnostic laboratory networks.

Latin America, Middle East & Africa

Steady market growth, with gradual adoption of advanced testing technologies and increasing government focus on early disease detection programs.

Market Segmentation

By Test Type:

Indirect Immunofluorescence (IIF) – Most commonly used method for ANA detection

Enzyme-Linked Immunosorbent Assay (ELISA) – Cost-effective and widely used in research laboratories

Multiplex Immunoassay (MIA) – High-throughput testing for multiple autoantibodies

By Disease Type:

Systemic Lupus Erythematosus (SLE)

Rheumatoid Arthritis

Sjögren’s Syndrome

Scleroderma

Others (Polymyositis, Dermatomyositis, etc.)

By End-User:

Hospitals & Diagnostic Laboratories

Research Institutes

Specialty Clinics

Key Market Players

Key companies in the Anti-nuclear Antibody (ANA) Testing Market include:

Abcam plc. (US)

Alere (US)

Antibodies Inc.(US)

Bio-Rad Laboratories, Inc. (US)

Erba Diagnostics (US)

Indur Services, Inc. (US)

Recent Developments

Introduction of AI-Based ANA Testing Solutions: AI-powered diagnostics are improving test accuracy and reducing human interpretation errors.

Strategic Collaborations for Advanced Autoimmune Disease Research: Companies are partnering with research institutions to develop highly sensitive ANA test kits.

Expansion of Laboratory Automation Systems: Growing adoption of automated analyzers is enhancing workflow efficiency and cost-effectiveness.

Future Outlook and Opportunities

The global ANA testing market is poised for steady growth due to rising autoimmune disease prevalence, continued technological advancements, and the increasing adoption of AI-powered diagnostic tools. Market players should focus on expanding accessibility, improving test standardization, and enhancing automation to strengthen market penetration.

For more information please visit @marketresearchfuture

Growth Dynamics of the Orbital Welding Services Market (2023-2032)

The global orbital welding services market is undergoing significant growth, reflecting a robust compound annual growth rate (CAGR) of approximately 8% from 2023 to 2032. Estimated at USD 0.4 billion in 2023, the market is projected to double in size, reaching USD 0.8 billion by 2032. This article explores the key drivers, challenges, and opportunities shaping the trajectory of the orbital welding services market.

Understanding Orbital Welding and Its Applications

Orbital welding is a specialized welding process that uses a mechanically guided arc to achieve high precision in welding operations, particularly for circular or tubular workpieces. Industries such as oil and gas, aerospace, automotive, power generation, and pharmaceuticals leverage orbital welding for its ability to deliver consistent, high-quality welds.

Key Applications of Orbital Welding:

Oil and Gas Industry: Joining pipelines and pressure vessels.

Pharmaceuticals: Sterile and contaminant-free connections in equipment.

Aerospace: Fabrication of lightweight yet strong components.

Power Generation: Construction of nuclear reactors and power plant piping systems.

Semiconductors: Manufacturing of ultra-clean tubing systems.

Market Drivers

1. Rising Demand for Precision Welding

The increasing demand for precision welding in high-stakes industries such as aerospace and pharmaceuticals is a primary driver. Orbital welding ensures uniformity and reduces the likelihood of defects, making it indispensable for critical applications.

2. Expansion of the Oil and Gas Sector

With global energy demands on the rise, the oil and gas industry requires advanced welding techniques for pipeline installations and maintenance. Orbital welding's ability to operate in challenging environments makes it an ideal solution.

3. Technological Advancements

Innovations in orbital welding equipment, such as improved automation and real-time monitoring capabilities, have significantly enhanced efficiency and reduced operational costs, driving market adoption.

4. Surge in Infrastructure Development

Infrastructure expansion in developing regions, including the construction of power plants, chemical facilities, and water treatment plants, has created substantial opportunities for orbital welding services.

5. Emphasis on Sustainability

The adoption of green energy solutions, such as solar and wind power plants, also demands robust welding services for constructing energy-efficient equipment and pipelines, further contributing to market growth.

Challenges Facing the Market

1. High Initial Investment

The upfront cost of orbital welding equipment and systems can be prohibitive for small-scale enterprises. This financial barrier often limits market penetration, especially in emerging economies.

2. Skilled Labor Shortages

Orbital welding requires a highly trained workforce to operate the sophisticated equipment effectively. The shortage of skilled professionals poses a challenge to the widespread adoption of orbital welding technology.

3. Competition from Alternative Welding Techniques

Traditional and other advanced welding techniques, such as laser welding and robotic welding, provide competition by offering different benefits, which could affect the growth of orbital welding services.

Opportunities in the Orbital Welding Market

1. Integration with Industry 4.0

The integration of Industry 4.0 technologies, such as IoT and AI, into orbital welding systems offers enhanced monitoring, predictive maintenance, and data analytics capabilities, presenting lucrative opportunities for market players.

2. Growth in Emerging Markets

Developing regions in Asia-Pacific, Latin America, and the Middle East are witnessing increased investments in infrastructure and industrial projects, creating significant demand for orbital welding training and services.

3. Customization and Niche Applications

The ability to customize welding solutions for niche applications, such as in biomedical equipment manufacturing and microelectronics, could open up untapped segments within the market.

4. Sustainability Initiatives

As industries aim to reduce their carbon footprints, the adoption of efficient and eco-friendly welding solutions will likely drive the demand for orbital welding services.

Competitive Landscape

Prominent players in the orbital welding market include Arc Machines, Inc., Magnatech LLC, Orbitalum Tools GmbH, and Lincoln Electric Company. These companies focus on research and development, strategic partnerships, and regional expansions to maintain a competitive edge.

For example:

Arc Machines, Inc. offers advanced orbital welding equipment with real-time data monitoring.

Orbitalum Tools GmbH emphasizes compact and portable solutions, catering to diverse industrial needs.

Regional Insights

North America: Dominates the market due to advanced industrial infrastructure and significant investments in energy and aerospace sectors.

Europe: Experiences steady growth driven by stringent quality standards in the pharmaceutical and food industries.

Asia-Pacific: Witnessing rapid market expansion due to infrastructural development, especially in China and India.

Middle East and Africa: Growth is fueled by investments in oil and gas infrastructure.

Future Outlook

As industries continue to prioritize precision, efficiency, and sustainability, the orbital welding services market is poised for remarkable growth. Companies that leverage technological advancements and address existing challenges, such as cost barriers and skill shortages, will be well-positioned to capitalize on emerging opportunities.

In conclusion, the orbital welding services market’s growth trajectory from USD 0.4 billion in 2023 to USD 0.8 billion by 2032 underscores its increasing importance across diverse industrial sectors. The continued evolution of welding technologies and expanding applications will ensure that orbital welding remains a cornerstone of modern industrial processes.

Dual Axis Solar Tracker Market By Product Type, By Manufacturers, By End-User And Market Trend Analysis Forecast 2033

The dual axis solar tracker global market report 2024 from The Business Research Company provides comprehensive market statistics, including global market size, regional shares, competitor market share, detailed segments, trends, and opportunities. This report offers an in-depth analysis of current and future industry scenarios, delivering a complete perspective for thriving in the industrial automation software market.

Dual Axis Solar Tracker Market, 2024 report by The Business Research Company offers comprehensive insights into the current state of the market and highlights future growth opportunities.

Market Size - The dual axis solar tracker market size has grown rapidly in recent years. It will grow from $5.87 billion in 2023 to $6.63 billion in 2024 at a compound annual growth rate (CAGR) of 12.9%.  The growth in the historic period can be attributed to energy efficiency demands, government incentives and policies, falling solar panel costs, and rising awareness of the environmental impact of traditional energy sources.

The dual axis solar tracker market size is expected to see rapid growth in the next few years. It will grow to $10.20 billion in 2028 at a compound annual growth rate (CAGR) of 11.4%.  The growth in the forecast period can be attributed to environmental concerns, global climate agreements, declining costs of dual-axis tracking technology, and increasing solar panel efficiency. Major trends in the forecast period include smart and connected trackers, hybrid solar tracking systems, adoption of AI and machine learning, and robotic cleaning solutions.

Order your report now for swift delivery @ https://www.thebusinessresearchcompany.com/report/dual-axis-solar-tracker-global-market-report

The Business Research Company's reports encompass a wide range of information, including:

1. Market Size (Historic and Forecast): Analysis of the market's historical performance and projections for future growth.

2. Drivers: Examination of the key factors propelling market growth.

3. Trends: Identification of emerging trends and patterns shaping the market landscape.

4. Key Segments: Breakdown of the market into its primary segments and their respective performance.

5. Focus Regions and Geographies: Insight into the most critical regions and geographical areas influencing the market.

6. Macro Economic Factors: Assessment of broader economic elements impacting the market.

Market Drivers - The increasing demand for renewable energy is expected to propel the growth of the dual-axis solar tracker market going forward. Renewable energy refers to energy derived from natural resources that are available on a human timescale and considered environmentally friendly. Unlike fossil fuels, which are finite and contribute to environmental degradation, renewable energy sources can be continually replenished, providing a cleaner and more sustainable alternative. A dual-axis solar tracker is used in renewable energy systems to enhance solar power installations' efficiency, reliability, and economic viability, contributing to the broader adoption and success of solar energy as a sustainable and reliable power source. For instance, in March 2023, according to the Energy Information Administration (EIA), a US-based federal agency that provides official energy statistics and information, the combined wind and solar share of total generation increased from 12% in 2021 to 14% in 2022, with renewable generation surpassing coal and nuclear generation for the first time. The increasing demand for renewable energy is expected to propel the growth of the dual-axis solar tracker market.

Market Trends - Major companies operating in the dual-axis solar tracker market are focusing on the development of innovative products such as Skywings, the first dual-row solar tracker with a multi-point drive mechanism to address several key challenges in solar energy production, and maximize energy yield, reduce the levelized cost of energy, and increase the stability of solar tracking systems. A dual-row solar tracker is a type of solar tracking system used to optimize the orientation of solar panels for maximum sunlight exposure. For instance, in September 2022, Arctech Solutions Pvt. Ltd., an Indian-based technology solutions company, launched its latest dual-row solar tracker skywings. This product is designed with a multi-point drive mechanism, making it the world's first dual-row solar tracker compatible with undulating terrain. The patented bidirectional slew drives enable two tracker rows to move synchronously, and the undulation tolerance of adjacent rows has increased to 15% in east/west and north/south directions. Additionally, it offers real-time shading avoidance, which can boost energy generation by 8%, and can be paired with a cleaning robot to increase energy yield.

The dual axis solar tracker market covered in this report is segmented –

1) By Product Type: Single Axis, Dual Axis, Azimuth-Altitude Dual Axis 2) By Technology: Solar Photovoltaic, Concentrated Solar Power, Concentrated Photovoltaic 3) By Application: Utility, Commercial, Residential

Get an inside scoop of the dual axis solar tracker market, Request now for Sample Report @ https://www.thebusinessresearchcompany.com/sample.aspx?id=14091&type=smp

Regional Insights - Asia-Pacific  was the largest region in the dual axis solar tracker market in 2023. The regions covered in the dual axis solar tracker market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

Key Companies - Major companies operating in the dual axis solar tracker market are PARU Corporation, Trina Solar Co. Ltd., First Solar Inc., NEXTracker Inc., SunPower Corporation, Array Technologies Inc., Soitec S.A., Soltec Power Holdings S.A., Arctech Solar Holding Co. Ltd., DEGERenergie GmbH & Co. KG, ADES International Holding plc, Sun Action Trackers LLC, Reutech Radar Systems Pty Ltd., Energia Ercam S.A., Abengoa Solar India Pvt. Ltd., AllEarth Renewables Inc., Mecasolar SL, Titan Tracker Ltd., Powerway Corporation, Haosolar Co. Ltd, Kirchner Solar Group GmbH, Mechatron LLC, Moser LLC, Shandong Huayue New Energy Co. Ltd., Targray Technology International Inc., SunTactics Inc., Cabanillas Ingenieros S.L., Amberroot Systems Inc., HeliosLite SAS

Table of Contents 1. Executive Summary 2. Dual Axis Solar Tracker Market Report Structure 3. Dual Axis Solar Tracker Market Trends And Strategies 4. Dual Axis Solar Tracker Market – Macro Economic Scenario 5. Dual Axis Solar Tracker Market Size And Growth ….. 27. Dual Axis Solar Tracker Market Competitor Landscape And Company Profiles 28. Key Mergers And Acquisitions 29. Future Outlook and Potential Analysis 30. Appendix

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UK Tech Market Updates

Are you new to the newsletter?

Each week, I delve into the latest trends and developments in the UK tech market.

Let's explore what's new.

Big Tech Boosts Britain!

Tech’s getting a turbo boost in the UK, with fresh investment streaming into British data centers! The Tech Secretary recently welcomed new funding aimed at boosting the UK’s digital infrastructure, promising a future where data centres are primed to support AI innovation and economic growth.

So, here’s what that means : more jobs, smarter tech, and a stronger economy! Imagine faster internet, smarter AI, and a tech scene that’s positively buzzing. With this funding, the UK could soon lead the way in digital infrastructure and innovation.

My take? This investment puts Britain right in the digital spotlight, setting us up for the future with some serious tech swagger. So, whether you’re into AI, the economy, or just happy about faster downloads, get ready—Britain’s tech future is looking bright!

Big Tech Goes Nuclear for a Cleaner, Greener Future!

Big Tech has found its new power move—and it’s nuclear! With the demand for data skyrocketing, especially thanks to AI, tech giants are looking to nuclear energy as a clean, powerful solution. Companies like Microsoft and Google are diving into nuclear investments to keep up with massive data demands while reducing their carbon footprints. As renewable sources struggle to meet the 24/7 energy needs, nuclear promises a consistent, eco-friendly power source.

In simpler terms, they’re saying goodbye to ‘dirty’ energy sources and opting for a more sustainable future for all. Think of it as an upgrade from your everyday battery to a powerhouse that doesn’t quit! With Big Tech going all-in on sustainability, AI’s environmental impact might just be a thing of the past.

So, keep your eyes on the grid, because Big Tech’s going nuclear could mean a cleaner, greener digital world!

Google’s Latest Move: Watermarking AI Text! 

Google just dropped a game-changer—tech that watermarks AI-generated text! That’s right, now AI-written content can have a digital “signature” so you know what’s written by bots versus us humans. Why? Well, with AI-generated content flooding the internet, it's getting tougher to tell what’s real and what’s… robotically real. Google’s watermarking tech aims to bring transparency and trust to online content by helping users spot AI-created text quickly.

Yes, you read that right!

This is Google’s way of saying, “We love our AI, but let’s keep it honest, folks!” It’s like giving AI its own “authenticity badge” so we all know who—or what—we’re listening to. Imagine being able to scroll and spot AI text without a double-take. It’s genius! Plus, it’s high time we had a little tech honesty, right?

Cheers to a future where we can tell if it's our buddy GPT or a real-life writer behind those words!

From Homeless to Headlining: Dean Forbes Tops UK’s Powerlist!

Dean Forbes, once homeless, has risen to become the UK’s most influential Black person of 2025, as celebrated in The Powerlist. Dean Forbes, CEO of Forterro, turned his life around with relentless ambition and now stands as a role model in tech and beyond.

Forbes’ journey is a testament to resilience and vision, proving that backgrounds don’t define futures. With Forterro, he’s driving innovative business strategies and showing that the tech world can be diverse and inclusive at the highest levels. Recognized as a leader who hasn’t just broken barriers but rewritten the rulebook, Forbes' journey reminds us all of the power of determination and hard work.

In a world where stories of success often overlook the struggles, Dean Forbes’ ascent to the top is a true highlight—and it shows that big dreams can happen, no matter where you start.

Dean Forbes: a name to remember, and a story to admire.

Apple’s Satellite Service for UK Roadside Emergencies

UK iPhone users now have access to satellite-powered emergency messaging. Yep, that means even without signal bars, help is just a message away.

The new feature lets stranded drivers contact roadside assistance via satellite when they’re out of mobile range. This service is designed for the unexpected—think of it as a lifeline for when your phone has a better chance of talking to the sky than the nearest cell tower. For now, it’s for iPhone 14 and 15 users, giving those with the latest tech an added layer of peace of mind.

So next time your car decides to nap mid-journey, just look up (literally), and let Apple’s satellites handle the rest.

This is Apple’s high-tech way of saying, “We’ve got your back.” A simple tap to request help in the middle of nowhere could save a day—or at least save you from a very long walk!

Subscribe to this newsletter to stay updated on the latest news from the UK Tech.

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United Kingdom Nuclear Decommissioning Market Outlook and Growth Forecast 2024 - 2032

The United Kingdom nuclear decommissioning market is an essential segment of the country's energy sector, focusing on the safe dismantling of nuclear power plants and the management of radioactive waste. As the UK continues to transition from nuclear energy, the United Kingdom nuclear decommissioning market is set for significant growth, driven by regulatory requirements and the increasing need for sustainable energy solutions. This article explores the current landscape, key drivers, challenges, and future prospects of this critical market.

Understanding Nuclear Decommissioning

What Is Nuclear Decommissioning?

Nuclear decommissioning refers to the process of safely closing and dismantling nuclear facilities, including power plants and research reactors. This complex undertaking involves the removal of radioactive materials, ensuring environmental safety, and preparing sites for future use. The decommissioning process is vital for minimizing health risks associated with radiation and for restoring land to safe conditions.

The Decommissioning Process

The nuclear decommissioning process typically involves several stages:

Planning: Developing a comprehensive decommissioning plan that outlines the steps, timelines, and costs involved.

Radiological Assessment: Conducting thorough assessments to identify and quantify radioactive materials present at the site.

Decontamination: Cleaning surfaces and materials to reduce radiation levels and ensure safety.

Dismantling: Physically removing structures, systems, and components associated with the nuclear facility.

Waste Management: Safely managing and disposing of radioactive waste generated during the decommissioning process.

Site Restoration: Restoring the site to a condition that is safe for future use, which may include reforestation or repurposing for industrial use.

Current Landscape of the United Kingdom Market

Market Overview

The United Kingdom nuclear decommissioning market is experiencing steady growth due to a combination of aging nuclear facilities, stringent regulatory frameworks, and a commitment to sustainability. With several nuclear power plants reaching the end of their operational life, the need for effective decommissioning strategies has become increasingly urgent.

Key Market Players

Prominent players in the UK nuclear decommissioning market include:

Magnox Limited: Responsible for decommissioning 12 Magnox sites.

Sellafield Ltd: Overseeing the decommissioning of the Sellafield nuclear site, one of the most complex nuclear facilities in Europe.

EDF Energy: Involved in the decommissioning of its fleet of nuclear power stations.

Recent Trends

A significant trend in the UK market is the increasing use of advanced technologies, such as robotics and digital monitoring systems, to enhance the efficiency and safety of decommissioning operations. These innovations are crucial for minimizing human exposure to radiation and improving overall project outcomes.

Drivers of Market Growth

Regulatory Framework

The UK government has established a robust regulatory framework for nuclear decommissioning, governed by organizations such as the Office for Nuclear Regulation (ONR) and the Environment Agency. These regulations ensure that decommissioning processes are conducted safely and in compliance with environmental standards, thereby driving market growth.

Aging Nuclear Infrastructure

Many of the UK’s nuclear power plants are approaching the end of their operational life, necessitating decommissioning. As facilities age, the demand for skilled labor and specialized services in the nuclear decommissioning sector is increasing, further propelling market growth.

Commitment to Environmental Sustainability

The UK government’s commitment to reducing carbon emissions and promoting sustainable energy solutions has heightened the focus on decommissioning nuclear facilities. As part of this strategy, decommissioning is viewed as an essential step in transitioning to a low-carbon energy future.

Challenges Facing the Nuclear Decommissioning Market

High Costs

Nuclear decommissioning is a capital-intensive process, often requiring substantial investment. The high costs associated with decommissioning projects can pose financial challenges, particularly for smaller operators.

Technical Complexity

The technical challenges involved in safely dismantling nuclear facilities are significant. Each site has unique characteristics and requires customized approaches to decommissioning, making project planning and execution complex.

Public Perception

Public perception of nuclear energy and decommissioning can be mixed. Concerns regarding safety and environmental impact may lead to resistance from local communities, complicating the approval processes for decommissioning projects.

Future Outlook for the Nuclear Decommissioning Market

Growth Projections

The United Kingdom nuclear decommissioning market is projected to experience continued growth over the coming years. As more nuclear facilities reach the end of their operational life, the demand for decommissioning services is expected to increase significantly.

Technological Innovations

Advancements in technology will play a pivotal role in shaping the future of the nuclear decommissioning market. Innovations such as remote-operated vehicles, advanced waste management solutions, and digital tracking systems will enhance operational efficiency and safety.

Alignment with National Energy Goals

As the UK moves toward a low-carbon economy, the nuclear decommissioning market will align with national energy goals. Effective decommissioning is essential for the safe closure of aging nuclear facilities, paving the way for new energy projects that are more sustainable.

Conclusion

The United Kingdom nuclear decommissioning market is positioned for substantial growth as it plays a crucial role in ensuring the safe and sustainable management of the country’s nuclear legacy. With strong regulatory support, technological advancements, and a commitment to environmental sustainability, the market is well-equipped to address the challenges of decommissioning aging nuclear facilities. As stakeholders innovate and adapt to the evolving landscape, the future of nuclear decommissioning in the UK looks promising, contributing to a safer and more sustainable energy future.

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The Nuclear Decommissioning Services Market is projected to grow from USD 198,680 million in 2024 to USD 398,797.25 million by 2032, reflecting a CAGR of 9.10% over the forecast period. The nuclear decommissioning services market is witnessing robust growth as countries around the world retire aging nuclear power plants and manage the complex process of dismantling and cleaning up nuclear facilities. The nuclear decommissioning process involves several phases, including the decontamination, deconstruction, and safe disposal of radioactive materials. This process is critical to ensuring that closed nuclear facilities do not pose long-term environmental or health risks.

Browse the full report at https://www.credenceresearch.com/report/nuclear-decommissioning-services-market

Market Overview

The global nuclear decommissioning services market is projected to grow steadily in the coming years. A growing emphasis on clean energy alternatives, aging nuclear infrastructure, safety concerns, and stricter regulatory frameworks are driving the need for decommissioning services. According to market reports, the industry was valued at over USD 5 billion in 2023 and is expected to reach approximately USD 10 billion by 2030, growing at a compound annual growth rate (CAGR) of 6%–8%.

Key Market Drivers

1. Aging Nuclear Reactors: Many nuclear reactors built during the mid-20th century are now reaching the end of their operational lifespans. According to the World Nuclear Association, over 400 nuclear reactors were operational worldwide in 2023, with several of them nearing or surpassing 40 years of operation. This has resulted in an increased demand for decommissioning services as these reactors are gradually phased out.

2. Safety and Environmental Concerns: The Fukushima nuclear disaster in 2011 underscored the dangers posed by aging nuclear reactors and heightened public scrutiny of nuclear energy safety standards. Governments and organizations are now more focused on ensuring that nuclear plants are properly decommissioned to prevent long-term environmental contamination, which has led to the implementation of stringent regulatory frameworks.

3. Shift Toward Renewable Energy: Several countries are transitioning away from nuclear energy in favor of renewable energy sources like wind, solar, and hydropower. This shift is particularly noticeable in regions such as Europe, where countries like Germany have committed to phasing out all nuclear power by 2025 under the Energiewende policy. The decommissioning of nuclear plants has created significant business opportunities for companies specializing in this field.

4. Technological Advancements: The development of advanced technologies, such as robotic systems, remotely operated vehicles (ROVs), and automated equipment, has streamlined the decommissioning process. These technologies enable more efficient dismantling and handling of hazardous materials while reducing human exposure to radiation. These innovations have made nuclear decommissioning safer, faster, and more cost-effective, further boosting the market.

Challenges

While the nuclear decommissioning services market offers substantial opportunities, it also faces challenges. The complexity of decommissioning nuclear facilities, high costs, and long timelines (often exceeding 30 years for full dismantling) make this a capital-intensive and time-consuming industry. Moreover, the disposal of radioactive waste poses significant logistical and environmental challenges, as governments continue to grapple with finding safe, long-term storage solutions.

Key Player Analysis:

Areva Group

Babcock International Group PLC

GE Hitachi Nuclear Energy

Westinghouse Electric Company LLC

Jacobs Engineering Group

Fluor Corporation

Studsvik AB

AECOM

EDF (Électricité de France)

Rosatom State Corporation

Segmentation:

By Reactor Type:

Pressurized Water Reactor (PWR)

Boiling Water Reactor (BWR)

Gas Cooled Reactor (GCR)

Others (Pressurized Heavy Water Reactor (PHWR), etc.)

By Decommissioning Strategy:

Immediate Dismantling

Deferred Dismantling

Entombment

By Region:

North America

US

Canada

Latin America

Brazil

Argentina

Mexico

Rest of Latin America

Europe

Germany

UK

Spain

France

Italy

Russia

Rest of Europe

Asia Pacific

China

India

Japan

Australia

South Korea

ASEAN

Rest of Asia Pacific

Middle East

GCC

Israel

Rest of Middle East

Africa

South Africa

North Africa

Central Africa

Browse the full report at https://www.credenceresearch.com/report/nuclear-decommissioning-services-market

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Teleoperation and Telerobotics Market: Current Analysis and Forecast (2024-2032)

According to a new report by UnivDatos Market Insights, the Teleoperation and Telerobotics Market is expected to reach USD by 2032 by growing at a CAGR of ~18.6%.

Introduction

The market of teleoperation and telerobotic systems is developing very fast across the globe, offering a brilliant solution to control machines and robots from a distance. These technologies enable operations to be conducted where they are dangerous or impractical for an operator to be physically present or over huge distances leading to increased output, safety, and effectiveness. Starting from health care, manufacturing, aerospace, and defense, teleoperation and telerobotics are the technologies that break the barriers of industries and explore new remote working and automated possibilities. This article focuses on the fundamental aspects of the teleoperation and telerobotic market today, the factors influencing the market, new trends, challenges, and future advancement of the market.

Market Overview

Teleoperation may in this context be understood as the real-time partial or complete manipulation of machines or systems by a human at a different location to the site of operation. Telerobotics takes this concept a step further by overlaying self-driving features and robotic apparatus to accomplish higher simplicity and precision. These technologies have received large acceptance in fields where direct people participation is unadvisable, unfeasible, or uneconomical. For instance, in the healthcare department, through using of teleoperation systems surgeons practice robotic surgeries, which gives more accurate outcomes and shortens times for patients’ recovery periods. Industrial telerobotics improves production lines and sustains vital structures in hazardous territory, including nuclear power stations and offshore oil-drilling platforms.

The teleoperation and telerobotic market for the global world has shown rapid development because of many factors such as enhancements in robotics technology, artificial intelligence, and utilization of real-time transportation networks. Organizations are now applying these technologies in a bid to cut expenses, minimize hazards, and get better organizational functions. Another major contributor has been 5G technology which has provided faster and less delayed communication that has now become the basis for smooth teleoperation enhancing chances of broader implementations.

Driving forces of the food packaging market

Several key factors are driving the expansion of the global teleoperation and telerobotic market:

Progress in attitude control devices and robotics systems – Modern technology and telerobotic technologies are profoundly benefiting from AI and machine learning which helps the systems learn from the operators.

High-Risk Operations – As various industries push for remote operations due to the hazardous working conditions, mining, oil & gas, and defense are leading adopters of teleoperation systems.

Growing Implementation of New Generation Network – Realization of 5G technology enables the desired high-speed low latency communication required for actual time remote control of robots and machinery.

Increase in the usage of teleoperation in Self-Driven and Semi-Autonomous Cars – The indicated technology in self-driven and semi-self-driven cars is increasing, enabling controllers to oversee cars during complicated maneuvers.

Telemedicine – The need for remote surgeries is increasing due to pandemic or geographic issues and it is pushing the uptake of teleoperated robotic surgery systems.

Emerging Trends in the Market

The teleoperation and telerobotic market is experiencing several exciting trends and technological advancements, which are shaping the future of these systems:

Application of Virtual and Augmented Reality (VR/AR) – VR/AR characterizes the experience through natural and intuitive operations, making interaction through the operating environment easy.

On Human-Robot Collaboration – Industries are now shifting their attention to cobots that interact with human employees, flexibility, and accuracy of work.

Widening of Space Research Uses – Space-bound telerobotic systems are developing into a necessity for space expeditions because astronauts can manipulate planetary surface robotic constructs in scientific analysis and construction.

Advanced Tactile Interfaces – Tactile interfaces are used to provide the operator with a feeling of the physical environment and increase the accuracy and stability of robotic systems used in operations or repair work.

New defense opportunities – Using telerobotic systems for observation, defusing of bombs, and telecontrol of military vehicles without involving human personnel directly in dangerous areas.

Major Uses across Various Industries

The teleoperation and telerobotic market are diverse, with applications across multiple sectors:

Healthcare: Probably the most sophisticated is the utilization of of telerobotic surgery since it allows the actual conducting of surgeries from remote areas and at the same time increased accuracy. Remote diagnostics and remote consultations are also emerging as services, which are indeed widely utilized to expand the scope of healthcare services.

Manufacturing and Industry: In manufacturing, they are applied to real-time control of machines from a distance so that an operator can monitor production without physically intervening. It proves useful in conditions that are dangerous for people such as chemical factories, nuclear power plants, and the like.

Defense and Military Applications: Telerobotic systems have become popular in defense to deal with bombs, spying, and operating unmanned vehicles. These systems assist in preventing the loss of military personnel while at the same time enabling effectiveness.

Space Exploration: Still, telerobotics has been widely implemented and used for space exploration, especially by NASA and other space centers. While rover machines are operated from Earth and remotely study surface conditions of distant planets, perform experiments, and construct space facilities.

Mining and Oil & Gas: In mining, teleoperated vehicles and equipment enable the operator to work in an area that is deep underground, or where conditions are unfriendly to human beings. In the same way, the oil and gas industries employ telerobotics in controlling the operational activities in offshore machinery or in situations where direct human influence is perilous.

Challenges in the Market

Despite the promising growth, the teleoperation and telerobotic market faces several challenges:

High Implementation Costs: The upfront costs of developing and deploying teleoperation and telerobotic systems can be prohibitive, particularly for small and medium-sized enterprises (SMEs). The hardware, software, and network infrastructure required to support these systems can be expensive.

Connectivity Limitations: Despite the emergence of 5G networks, there are still many areas, where stable connection with high speed is required for real-time teleoperation. This issue poses a challenge to the implementation of telerobotic systems in rural or relatively remote regions.

Security Concerns: Like any networked system teleoperation and telerobotic technologies present certain risks among which are risks related to cyber threats. Protecting these systems is of paramount importance, especially for organizations operating in such sectors as defense, healthcare, and essential infrastructure.

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Regulatory Hurdles: Telerobotics is highly regulated in sectors including those related to healthcare and defense. Undulating with these regulations may hinder the implementation of new technologies and could pose challenges regarding entrants.

Operator Training and Skill Gaps: The presence of expert opinion to control the systems is extremely valuable in the overall functionality of teleoperated and telerobotic systems. One of the problems faced by most industries is the ability to ensure the workforce is trained sufficiently.

 Related Telecom & IT Market Research Industy Report:-

AI Data Center Market: Current Analysis and Forecast (2024-2032)

Millimeter Wave Technology Market: Current Analysis and Forecast (2024-2032)

Conclusion

The teleoperation and telerobotic market at the global level is expected to change industrial processes and their performance significantly, providing them with improved work conditions and opportunities. These technologies are finding application in healthcare, defense, and other sectors to address field operations that otherwise had restricted or dangerous access mechanisms changing the existing paradigms. Growing with the advancements in artificial intelligence, Robotics, and communication networks, this marketing has immense growth potential. Nevertheless, high costs, connectivity, and security issues will be the key factors that will determine how teleoperation and telerobotics can be fully developed to their potential. Over the years, those technologies will continue to grow exponentially, and they will bring dramatic changes to industries and departments as well as promote new forms of remote controlling for more extensive ranges of work.

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Lab Supplies Procurement Intelligence Competitive Landscape

The global lab supplies category is anticipated to grow at a CAGR of 7.5% from 2023 to 2030. Growth of the category can be attributed to a rise in life science research and clinical laboratory testing, and growth in financial support and investment for biotechnology and pharmaceutical research & development. The category is anticipated to witness steady growth over the forecasted timeframe due to uninterrupted and ongoing supply of laboratory equipments. Over time, laboratories have evolved into multifunctional research spaces where a wide range of testing procedures and comparison studies are conducted. The market need for laboratory supplies has increased as a result of this. In addition, the field of lab supply research has become increasingly dominant over the past ten years. As a result, academic institutions have expanded their labs, which has further fuelled the category's growth.

Technologies that drive the global category include automation, cloud, advanced analytics, smart lab devices, single-use technologies, nanotechnology, and 3D-printing. Workflows in laboratories are being revolutionized by automation, which reduces human error and streamline repetitive operations. Faster and more precise data generation is made possible by robotic devices for high-throughput screening, chemical synthesis, and sample handling. in addition, latest lab equipments are capable in recording data and adding it on cloud. The apparatus can also notify a scientist or lab technician in case of malfunction. Furthermore, Researchers are becoming more knowledgeable about intricate chemical systems because of developments in analytical techniques. Unmatched detail is being provided by methods like electron microscopy, NMR (nuclear magnetic resonance) spectroscopy, and HRMS (high-resolution mass spectrometry), which is propelling advancements in disciplines like drug development, materials research, and metabolomics.

Order your copy of the Lab Supplies Procurement Intelligence Report, 2023 - 2030, published by Grand View Research, to get more details regarding day one, quick wins, portfolio analysis, key negotiation strategies of key suppliers, and low-cost/best-cost sourcing analysis

The category for lab supplies is fragmented, with the presence of regional and global suppliers. Players in the industry are investing heavily in improving existing products and launching new products with cutting-edge features and technologies to streamline sampling operations. For instance, in 2022, Waters Corporation released ‘Extraction+ Connected Device’ which records & automates solid phase extraction technique utilized in sample preparation for research applications in clinical studies, environmental, forensic, food, and biological applications. In addition, the players are indulging in activities such as mergers & acquisitions, partnerships, etc. to increase their market share and stay competitive. Since the category is fragmented, the buyers in this category possess higher negotiation power as they can look for alternative providers who can provide at a lower cost with better quality. However bargaining power of big players is still high owing to their operational and functional capabilities, making it challenging for the buyers to get the price of their choice.

Cost of products (equipments, disposables, reagents), labor cost, transportation cost and insurance cost are the key cost components in this category. In 2022, the cost of raw materials reached all-time highs for plastic converters in North America, Europe, and Asia. Also, the price of consumables getting shipped from North America, Europe, and Asia got affected by the Ukraine-Russia conflict. Goods being transported by rail from China has increased recently, which has decreased the need for shipping containers as well as the costs connected with gasoline for transportation. The prices of centrifuges offered in the category ranges from USD 27 to USD 63,000 depending on type of centrifuge (mini, micro and benchtop), RPM speed and relative centrifugal field (RCF). In addition, the prices of incubators offered in the category ranges from USD 31 to USD 49,900 depending on chamber size, temperature ranges, and features (smartphone notification, alarms, etc.)

North America region dominates the global lab supplies category, holding over 37.6% of global market share. The need for products offered in the category throughout the region is being greatly influenced by rising research & development investments in number of industries, including chemicals and pharmaceuticals in the United States. In addition, favourable government regulations, active engagement of FDA in monitoring clinical test findings and advances, and the growing number of approvals is further supporting the growth of the category in the region. Furthermore, assessing the range of products offered by a supplier, lead time being guaranteed by a supplier, ensuring that the supplier offers technical assistance post sales, comparing the prices offered by different suppliers are some of the best sourcing practices considered in this category.

Browse through Grand View Research’s collection of procurement intelligence studies:

• Drug Testing Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)

• Ammonia Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)

Lab Supplies Procurement Intelligence Report Scope

• Lab Supplies Category Growth Rate: CAGR of 7.5% from 2023 to 2030

• 5% - 10% increase (Annually): Pricing Models

• Cost-plus pricing, Fixed pricing: Supplier Selection Scope: Cost and pricing, Past engagements, Productivity, Geographical presence

• Supplier Selection Criteria: Industries served, years in service, geographic service provision, certifications, types of products, features, technical support, lead time, regulatory compliance, and others

• Report Coverage: Revenue forecast, supplier ranking, supplier matrix, emerging technology, pricing models, cost structure, competitive landscape, growth factors, trends, engagement, and operating model

Key Companies 

• Agilent Technologies, Inc.

• Becton

• Dickinson and Company

• Bio-Rad Laboratories, Inc.

• Danaher Corporation

• Hilton Instruments Ltd.

• Medline Industries, LP

• PerkinElmer Inc.

• Sartorius AG

• Shimadzu Corporation

• Th. Geyer GmbH & Co. KG

• Thermo Fisher Scientific Inc.

• Waters Corporation

Brief about Pipeline by Grand View Research:

A smart and effective supply chain is essential for growth in any organization. Pipeline division at Grand View Research provides detailed insights on every aspect of supply chain, which helps in efficient procurement decisions.

Our services include (not limited to):

• Market Intelligence involving – market size and forecast, growth factors, and driving trends

• Price and Cost Intelligence – pricing models adopted for the category, total cost of ownerships

• Supplier Intelligence – rich insight on supplier landscape, and identifies suppliers who are dominating, emerging, lounging, and specializing

• Sourcing / Procurement Intelligence – best practices followed in the industry, identifying standard KPIs and SLAs, peer analysis, negotiation strategies to be utilized with the suppliers, and best suited countries for sourcing to minimize supply chain disruptions

Science and technology in Japan has helped fuel the rapid industrial and economic development of the country. Japan has a long history and tradition for scientific research and development, stretching as far back as the Meiji period.

However, science and technology developed rapidly after the Second World War, which has affected the advancement of vehicle technology, consumer electronics, robotics, medical devices, space exploration, and the film industry. Japan's exemplary educational system as well its higher education institutions help contribute to the country's acceptance for technological innovation and aid engineering talent development.

High levels of support for research and development have enabled Japan to produce advances in automotive engines, television display technology, videogames, optical clocks, and many other fields. Japan is also advanced and a global leader in the robotics, natural sciences, aerospace exploration and biomedical research areas. In 2023, Japan was ranked 13th in the Global Innovation Index by the World Intellectual Property Organization.[1]

Scientific research in Japan is supported and promoted by the Japanese Government through various institutes and agencies including the Japan Science and Technology Agency (科学技術振興機構), Science Council of Japan (日本学術会議) and the Japan Academy (日本学士院).

Aerospace research

Founded in 2003 through the merging of three aerospace organisations (Institute of Space and Astronautical Science, National Aerospace Laboratory, and the National Space Development Agency of Japan), the Japan Aerospace Exploration Agency (JAXA) conducts space and planetary exploration, aviation research, and the development of various space technologies and satellites. JAXA has developed a series of rockets in conjunction with Japanese heavy manufacturers such as Mitsubishi Heavy Industries. The organisation was also responsible for the development of the Japanese Experiment Module (also known as KIBO), which was launched and added to the International Space Station during Space Shuttle assembly flights in 2007 and 2008 and the HTV to transfer payloads to the station in 2009.

Japan also sends several astronauts to work in the ISS and help other international collaborators with space research and technology transfers. Since 1990, twelve Japanese individuals have participated in space flights, two of whom were women. Two Japanese astronauts also served as commanders of the ISS, with the last being Akihiko Hoshide.

In recent years, Japan's Hayabusa2 spacecraft has been used to collect samples from a near-Earth asteroid called Ryugu and back to Earth for research and analysis. The 6-year mission ended in 2020.

Nuclear energy

Main article: Nuclear power in JapanThe Onagawa Nuclear Power Plant, a 3-unit BWR site typical of Japan's nuclear plants

Since 1973, Japan has been looking to become less dependent on imported fuel and start to depend on nuclear energy. In 2008, after the opening of 7 brand new nuclear reactors in Japan (3 on Honshū, and 1 each on Hokkaidō, Kyūshū, Shikoku, and Tanegashima) Japan became the third largest nuclear power user in the world with 55 nuclear reactors. These provide 34.5% of Japan's electricity.

Following an earthquake, tsunami, and the failure of cooling systems at the Fukushima I Nuclear Power Plant on March 11, 2011, a nuclear emergency was declared. 140,000 residents within 20 km of the plant were evacuated. See Radiation effects from Fukushima Daiichi nuclear disaster 900.

Electronics

Japan is well known for its electronics industry throughout the world, and Japanese electronic products account for a large share in the world market, compared to a majority of other countries. Japan is one of the leading nations in the fields of scientific research, technology, machinery, and medical research with the world's third largest budget for research and development at $130 billion USD, and over 677,731 researchers. Japan has received the most science Nobel prizes in Asia

Japan has large international corporate conglomerates such as Fuji (which developed the nation's first electronic computer, FUJIC1999, in 1956) and Sony. Sony, Panasonic, Canon, Fujitsu, Hitachi, Sharp, NEC, Nintendo, Epson and Toshiba are among the best-known electronics companies in the world. Toyota, Honda, Nissan, Mazda, Mitsubishi, Suzuki, and Subaru are also very well known automobile companies in the world.

It is estimated that compared to the amount of known reserves still in the ground, 16% of the world's gold and 22% of silver is contained in electronic technology in Japan.

Robotics

Japan is also known for robotics. There are many types of robots that are used in restaurants, hospitals, parks, or in different companies.[6] Robots are used for different purposes, such as in restaurants in Japan. Japanese research companies are researching on advanced AI robots that can mimic the work of humans.[7]

Medicine and healthcare

Japan is also a global leader in the area of biomedical research along with the United States and elsewhere. In 2015, the country established the Japan Agency for Medical Research and Development to help implement biomedical research and development projects and improve the support infrastructure for clinical research. Medical research in Japan typically takes place in various national university and private university research hospitals. These research hospitals include University of Tokyo Hospital, Tohoku University Hospital, and Keio University Hospital among others.

Mobile Robots Market Booming Worldwide with Latest Trend and Future Scope by 2030

The mobile robots market is expected to be valued USD 20.3 billion in 2023 and grow at a compound annual growth rate (CAGR) of 14.9% to reach USD 40.6 billion by 2028. The market is expanding as a result of the rising demand for mobile robots in personal and healthcare applications as well as the quick developments in robotics and artificial intelligence technology.

With the advent of technologies like augmented reality, deep learning, and artificial intelligence (AI), robotics has experienced a quantum jump. The need for cutting-edge technology and virtual assistants, like companion robots, is expanding along with the global geriatric population and the rise in nuclear families. These technologies make tasks easier to complete. Many industry participants have successfully embraced these technologies in order to launch cutting-edge goods and obtain a competitive advantage in the mobile robots market. For instance, Honeybot, a companion robot that uses augmented reality (AR) for learning, is available from Shenzhen Huiyu Education Technology (China). Similarly, Buddy, a companion robot created with AI, is available from Blue Frog Robotics (France). Task-performing mobile robots are becoming more and more incorporated into homes.

Key Market Players The major companies in the mobile robots companies include KUKA (Germany), ABB (Switzerland), Honda Motor (Japan), Mobile Industrial Robots (Denmark) and Omron Automation (US).

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Market Segmentation:

Personal & Domestic Robots type to grow at the highest CAGR during 2023-2028.

As technology advances and robotic solutions that improve consumers' daily lives become more affordable, the market for personal and domestic robots is predicted to expand. Personal robots provide convenience, efficiency, and a higher standard of living. These include robotic companions, aides, and entertainment systems. They can offer company, help with household chores, and even support with healthcare. Comparably, domestic robots concentrate on particular duties like gardening, cleaning, and security monitoring that take place in the home. The growing demand for these items is being driven by the increasing use of automation and smart home technologies, as well as the growing functionality offered by personal and domestic robots.

Agriculture application to grow at the highest CAGR during forecast period.

The agriculture sector is actively looking for novel ways to boost productivity and efficiency as the world's population continues to rise and the significance of sustainable food supply grows. The field of agriculture might undergo a major transformation if mobile robots were to automate chores like planting, harvesting, crop monitoring, and precise spraying. These robots are excellent at navigating difficult terrain, gathering data in real time, and carrying out tasks precisely, all of which increase productivity, lower labor costs, and maximize resource use. Additionally, mobile robots enable farmers to increase production, reduce environmental impact, and make data-driven decisions. The market is developing because of the increasing use of automation and robots in agriculture as well as the need for sophisticated farming methods.

Asia Pacific is expected to grow at the highest CAGR in the mobile robots market during the forecast period.

The field of mobile robots is expected to grow significantly in the Asia Pacific area. Businesses in the area are actively looking for ways to automate processes in order to boost productivity and cut expenses. Notable technological improvements have been made by China, South Korea, Japan, and other nations. These advancements have led to the development of sophisticated robotics technologies that have improved the usability and accessibility of mobile robots. The Asia Pacific area also has to deal with issues like an aging worker force and rising labor expenses, which has increased the appeal of using mobile robots for labor-intensive and repetitive jobs. In addition, the region's need for automation in last-mile deliveries and warehousing has increased due to the expansion of the e-commerce and logistics sectors.

Germany CBRN Defense Market Research : Global Economy, By Penetration, Forecast, 2024-2032.

Germany's CBRN (Chemical, Biological, Radiological, and Nuclear) defense market stands as a cornerstone in the nation's efforts to pioneer resilience against a spectrum of threats, ranging from terrorist attacks to industrial accidents. Driven by innovation, collaboration, and a proactive approach to preparedness, Germany leads the way in developing advanced CBRN defense capabilities and solutions.

Market Landscape:

The Germany CBRN defense market is characterized by a robust ecosystem comprising defense contractors, government agencies, research institutions, and technology providers. This collaborative framework facilitates the development, deployment, and maintenance of CBRN defense capabilities across military, law enforcement, and civilian domains.

Key Drivers of Growth:

Several factors propel the growth of the CBRN defense market in Germany:

Security Imperatives: Germany's commitment to national security underscores the importance of robust CBRN defense capabilities. With a focus on homeland security and counterterrorism efforts, the nation prioritizes investments in CBRN defense technologies to protect critical infrastructure and ensure public safety.

Technological Innovation: Germany's reputation for engineering excellence fuels innovation in CBRN defense technologies. Leading companies such as Siemens, Rheinmetall AG, and Bundeswehr Technical Center for Protective and Special Technologies (WTD 52) drive advancements in sensor technology, detection systems, protective equipment, and decontamination solutions.

Government Support: The German government provides substantial funding, grants, and regulatory support to bolster CBRN defense initiatives. Organizations such as the Federal Ministry of Defence (BMVg) and the Federal Office of Civil Protection and Disaster Assistance (BBK) collaborate with industry partners to fund research and development projects, fostering innovation and market growth.

International Collaboration: Germany actively collaborates with European and international partners on CBRN defense initiatives. Participation in multinational exercises, joint research projects, and information-sharing mechanisms enhances interoperability and strengthens collective resilience against CBRN threats.

Challenges and Opportunities:

Despite the growth prospects, the Germany CBRN defense market encounters several challenges:

Complex Threat Landscape: Chemical, biological, radiological, and nuclear threats pose multifaceted challenges for detection, identification, and mitigation. Addressing evolving threats requires continuous innovation, intelligence-sharing, and response coordination among stakeholders.

Resource Allocation: Budgetary constraints and competing priorities may impact investment in CBRN defense capabilities. Strategic resource allocation, informed by risk assessment and threat analysis, can optimize funding allocation and enhance preparedness.

Emerging Technologies: Rapid advancements in technology present both opportunities and challenges for CBRN defense. Leveraging emerging technologies such as artificial intelligence, robotics, and biotechnology enhances detection, protection, and response capabilities against evolving CBRN threats.

Public Health Preparedness: Strengthening public health preparedness and response is integral to mitigating the impact of biological threats. Enhancing biosurveillance, medical countermeasures, and emergency response capabilities contributes to overall CBRN resilience in Germany.

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Future Outlook:

Despite challenges, the outlook for the Germany CBRN defense market remains promising. Continued investment in technology development, research and development, and international collaboration will drive innovation and market growth. Additionally, emerging trends such as cybersecurity, resilience planning, and cross-sector partnerships present new avenues to enhance CBRN defense capabilities and safeguard Germany against hazardous threats.

In conclusion, the Germany CBRN defense market plays a pivotal role in pioneering resilience against chemical, biological, radiological, and nuclear threats. By addressing challenges and capitalizing on opportunities, stakeholders in Germany can enhance national security, protect public safety, and safeguard critical infrastructure from CBRN hazards.

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Global Military Robotic and Autonomous System (RAS) Market Analysis 2024 – Estimated Market Size And Key Drivers

The Military Robotic and Autonomous System (RAS) Global Market Report 2024 by The Business Research Company provides market overview across 60+ geographies in the seven regions - Asia-Pacific, Western Europe, Eastern Europe, North America, South America, the Middle East, and Africa, encompassing 27 major global industries. The report presents a comprehensive analysis over a ten-year historic period (2010-2021) and extends its insights into a ten-year forecast period (2023-2033). Learn More On The Military Robotic and Autonomous System (RAS) Market: https://www.thebusinessresearchcompany.com/report/military-robotic-and-autonomous-system-ras-global-market-report According to The Business Research Company’s Military Robotic and Autonomous System (RAS) Global Market Report 2024, The military robotic and autonomous system (ras) market size has grown steadily in recent years. It will grow from $18.62 billion in 2023 to $19.05 billion in 2024 at a compound annual growth rate (CAGR) of 2.3%.  The military robotic and autonomous system (ras) market size is expected to see marginal growth  in the next few years. It will grow to $20.45 billion in 2028 at a compound annual growth rate (CAGR) of 1.8%.  The rise in the defense budget is expected to propel the growth of the military robotic and autonomous systems (RAS) market going forward. A defense budget refers to the financial plan and resources allocated to a country's military forces for various purposes, such as research, development, acquisition, and sustainment of military equipment, technologies, and capabilities. The defense budget includes funding for the development, integration, and procurement of RAS technologies to enhance military capabilities and improve operational efficiency. Get A Free Sample Of The Report (Includes Graphs And Tables): https://www.thebusinessresearchcompany.com/sample.aspx?id=13702&type=smp The military robotic and autonomous system (ras) market covered in this report is segmented – 1) By Platform: Unmanned Aircraft Systems, Unmanned Ground and Robotic Systems, Unmanned Maritime Systems 2) By Operation:  Remote Controlled, Semi-Autonomous, Fully Autonomous 3) By Application: Intelligence, Surveillance, And Reconnaissance (ISR), Combat Operation, Target Acquisition, Logistics, Mine Clearance, Explosive Ordnance Disposal (EOD), and Chemical, Biological, Radiological, and Nuclear (CBRN), Infantry Support, Other Applications Major companies operating in military robotic and autonomous systems (RAS) are investing in various fields of military including robotic and autonomous systems to gain a competitive edge in the market. Military RAS can enhance operational effectiveness by performing tasks that are dangerous, tedious, or time-consuming for human soldiers. Investments in RAS can lead to the creation of systems that can conduct surveillance, reconnaissance, and other critical missions with increased efficiency and reduced risk to human personnel. The military robotic and autonomous system (ras) market report table of contents includes: 1. Executive Summary 2. Market Characteristics 3. Market Trends And Strategies 4. Impact Of COVID-19 5. Market Size And Growth 6. Segmentation 7. Regional And Country Analysis . . . 27. Competitive Landscape And Company Profiles 28. Key Mergers And Acquisitions 29. Future Outlook and Potential Analysis Contact Us: The Business Research Company Europe: +44 207 1930 708 Asia: +91 88972 63534 Americas: +1 315 623 0293 Email: [email protected] Follow Us On: LinkedIn: https://in.linkedin.com/company/the-business-research-company Twitter: https://twitter.com/tbrc_info Facebook: https://www.facebook.com/TheBusinessResearchCompany YouTube: https://www.youtube.com/channel/UC24_fI0rV8cR5DxlCpgmyFQ Blog: https://blog.tbrc.info/ Healthcare Blog: https://healthcareresearchreports.com/ Global Market Model: https://www.thebusinessresearchcompany.com/global-market-model