Explore Highway9's enterprise campus solutions featuring advanced outdoor coverage for smooth connectivity. With encrypted air interfaces, secure mobile edge technology, and virtual mobile zones, ensure reliable and secure networking for your corporate network. Highway9 bridges the gap between indoor and outdoor access points to deliver superior connection.

SIRT is the first campus in Bhopal which is 5G enabled

Trends in the IoT Node and Gateway Market 2023 - 2030

The global IoT node and gateway market size is expected to reach USD 1.13 trillion by 2030, according to a new report by Grand View Research, Inc. It is expected to expand at a CAGR of 13.1% from 2023 to 2030. The market's growth is primarily fueled by the advent of 5G technology, the increasing utilization of wireless smart sensors and networks, a burgeoning market for connected devices, and the rising demand for data centers driven by the growing adoption of cloud platforms. For instance, in August 2023, Intel Corporation launched its new leading-edge chip factories at its Ocotillo campus in Chandler, Arizona. The new factories will support the growing demand for Intel’s products and provide committed capacity for Intel Foundry Services customers, thereby driving market growth over the forecast period.

The growing need for data-driven insights and automation drives the increased demand for connected devices. In sectors like healthcare, the Internet of Things (IoT)-enabled medical devices can monitor patients' vital signs in real time, providing doctors with accurate and timely information for diagnosis and treatment. In agriculture, field sensors can collect data on soil moisture, temperature, and nutrient levels, enabling farmers to make informed decisions about irrigation and fertilization.

IoT devices and gateways often operate in remote or challenging environments where wired connections are impractical. 5G’s broader coverage and improved penetration capabilities ensure that even devices in difficult-to-reach areas can stay connected, enabling applications like smart agriculture, environmental monitoring, and wildlife tracking. 5G mMTC (Massive Machine-Type Communications) capability allows for the seamless connection of many IoT devices within a small geographical area.

Manufacturing industries are embracing IoT nodes and gateways to create smarter factories with real-time monitoring of equipment and production lines, optimizing efficiency and reducing downtime. The need for real-time data processing has led to the adoption of edge computing. IoT gateways play a pivotal role by performing data preprocessing at the edge, reducing latency, and enhancing overall system responsiveness.

North America has been at the forefront of technological innovation, with a robust ecosystem of tech companies, startups, and research institutions. This environment has fostered the development of innovative IoT solutions, making it an ideal market for adoption. The region has quickly embraced emerging technologies such as 5G, edge computing, and AI, which are essential for IoT deployments. In January 2023, Cisco Systems Inc. extended its collaboration with the Grand Duchy of Luxembourg. The aim of this collaboration is to continue to support Digital Luxembourg, the Grand Duchy’s long-term digitalization movement.

IoT Node And Gateway Market Report Highlights 

North America has solidified its position as a key hub for IoT innovation and adoption, due to the advancing technological infrastructure, strong investment in IoT solutions across various industries, and a thriving ecosystem of IoT-related companies

Advancements in microelectronics have led to smaller, more power-efficient IoT nodes. This enables seamless integration into various devices and environments while extended battery life reduces maintenance needs

The growth of smart homesworldwide has been a remarkable phenomenon in recent years. Smart homes are equipped with advanced technology that enables homeowners to control their home systems remotely

The key industry players are Intel Corporation, Cisco Systems, Inc., Huawei Technologies Co. Inc., and NXP Semiconductors, among others. To maintain market share, major firms frequently engage in mergers and acquisitions as well as new product launches

IoT Node And Gateway Market Segmentation

Grand View Research has segmented the IoT node and gateway market based on component, connectivity, end-use, and region:

IoT Node & Gateway Component Outlook (Revenue, USD Billion, 2018 - 2030)

Hardware

Connectivity Integrated Circuits (ICs)

Logic Devices

Memory Devices

Processors

Sensors

Temperature Sensors

Motion Sensors

Light Sensors

Others

Software

Services

IoT Node & Gateway Connectivity Outlook (Revenue, USD Billion, 2018 - 2030)

ZigBee

Wi-Fi

Bluetooth

Z-Wave

Others

IoT Node & Gateway End-use Outlook (Revenue, USD Billion, 2018 - 2030)

Consumer Electronics

Wearable Devices

Automotive & Transportation

BFSI

Healthcare

Retail

Building Automation

Oil & Gas

Agriculture

Aerospace & Defense

Others

IoT Node & Gateway Regional Outlook (Revenue, USD Billion, 2018 - 2030)

North America

US

Canada

Europe

Germany

UK

France

Italy

Spain

Asia Pacific

China

Japan

India

South Korea

Latin America

Brazil

Mexico

Middle East and Africa

South Africa

UAE

Order a free sample PDF of the IoT Node And Gateway Market Intelligence Study, published by Grand View Research.

Microelectronics projects awarded CHIPS and Science Act funding

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Microelectronics projects awarded CHIPS and Science Act funding

MIT and Lincoln Laboratory are participants in four microelectronics proposals selected for funding to the Northeast Microelectronics Coalition (NEMC) Hub. The funding comes from the Microelectronics Commons, a $2 billion initiative of the CHIPS and Science Act to strengthen U.S. leadership in semiconductor manufacturing and innovation. The regional awards are among 33 projects announced as part of a $269 million federal investment.

U.S. Department of Defense (DoD) and White House officials announced the awards during an event on Sept. 18, hosted by the NEMC Hub at MIT Lincoln Laboratory. The NEMC Hub, a division of the Massachusetts Technology Collaborative, leads a network of more than 200 member organizations across the region to enable the lab-to-fab transition of critical microelectronics technologies for the DoD. The NEMC Hub is one of eight regional hubs forming a nationwide chip network under the Microelectronics Commons and is executed through the Naval Surface Warfare Center Crane Division and the National Security Technology Accelerator (NSTXL).

“The $38 million in project awards to the NEMC Hub are a recognition of the capability, capacity, and commitment of our members,” said Mark Halfman, NEMC Hub director. “We have a tremendous opportunity to grow microelectronics lab-to-fab capabilities across the Northeast region and spur the growth of game-changing technologies.”

“We are very pleased to have Lincoln Laboratory be a central part of the vibrant ecosystem that has formed within the Microelectronics Commons program,” said Mark Gouker, assistant head of the laboratory’s Advanced Technology Division and NEMC Hub advisory group representative. “We have made strong connections to academia, startups, DoD contractors, and commercial sector companies through collaborations with our technical staff and by offering our microelectronics fabrication infrastructure to assist in these projects. We believe this tighter ecosystem will be important to future Microelectronics Commons programs as well as other CHIPS and Science Act programs.”

The nearly $38 million award to the NEMC Hub is expected to support six collaborative projects, four of which will involve MIT and/or Lincoln Laboratory.

“These projects promise significant gains in advanced microelectronics technologies,” said Ian A. Waitz, MIT’s vice president for research. “We look forward to working alongside industry and government organizations in the NEMC Hub to strengthen U.S. microelectronics innovation, workforce and education, and lab-to-fab translation.”

The projects selected for funding support key technology areas identified in the federal call for competitive proposals. MIT campus researchers will participate in a project advancing commercial leap-ahead technologies, titled “Advancing DoD High Power Systems: Transition of High Al% AlGaN from Lab to Fab,” and another in the area of 5G/6G, called “Wideband, Scalable MIMO arrays for NextG Systems: From Antennas to Decoders.”

Researchers both at Lincoln Laboratory and on campus will contribute to a quantum technology project called “Community‐driven Hybrid Integrated Quantum‐Photonic Integrated circuits (CHIQPI).”

Lincoln Laboratory researchers will also participate in the “Wideband Same‐Frequency STAR Array Platform Based on Heterogeneous Multi-Domain Self‐Interference Cancellation” project.

The anticipated funding for these four projects follows a $7.7 million grant awarded earlier this year to MIT from the NEMC Hub, alongside an agreement between MIT and Applied Materials, to add advanced nanofabrication equipment and capabilities to MIT.nano.

The funding comes amid construction of the Compound Semiconductor Laboratory – Microsystem Integration Facility (CSL-MIF) at Lincoln Laboratory. The CSL-MIF will complement Lincoln Laboratory’s existing Microelectronics Laboratory, which has remained the U.S. government’s most advanced silicon-based research and fabrication facility for decades. When completed in 2028, the CSL-MIF is expected to play a vital role in the greater CHIPS and Science Act ecosystem.

“Lincoln Laboratory has a long history of developing advanced microelectronics to enable critical national security systems,” said Melissa Choi, Lincoln Laboratory director. “We are excited to embark on these awarded projects, leveraging our microelectronics facilities and partnering with fellow hub members to be at the forefront of U.S. microelectronics innovation.”

Officials who spoke at the Sept. 18 event emphasized the national security and economic imperatives to building a robust microelectronics workforce and innovation network.

“The Microelectronics Commons is an essential part of the CHIPS and Science Act’s whole-of-government approach to strengthen the U.S. microelectronics ecosystem and secure lasting technical leadership in this critical sector,” said Dev Shenoy, the principal director for microelectronics in the Office of the Under Secretary of Defense for Research and Engineering. “I believe in the incredible impact this work will have for American economies, American defense, and the American people.”

“The secret sauce of what made the U.S. the lead innovator in the world for the last 100 years was the coming together of the U.S. government and the public sector, together with the private sector and teaming up with academia and research,” said Amos Hochstein, special presidential coordinator for global infrastructure and energy security at the U.S. Department of State. “That is what enabled us to be the forefront of innovation and technology, and that is what we have to do again.”

(2024-09-22 image ©STL Tech) We all know that to make 5G available to us there needs to be cell towers dotted around the country. But what happens when we need more capacity? The standard cells we see all around are there to cater for "normal" cell use but in various situations we need capacity in localised situations. This could be shopping centres, sports stadia, dense areas of housing, university campus or wherever there is a large number of people. Now to cater for this demand we do not always need a new big cell covering a large area. - we need a small cell covering a smaller area but providing more capacity.

To achieve this the mobile operators build Small-Cells onto lampposts, bus shelters or other street furniture, attached to shopping centres or sports stadia buildings. These devices need a power supply so these locations are ideal. They also need 'backhaul' capacity, which is the wire or fibre to link the cell to the mobile network. There is also the potential to use other wireless connectivity such as micro-waves to backhaul to the network.

In some situations 5G could have another potential backhaul - what is called 5G Self Backhaul. Use some of the 5G spectrum as a back haul to another small cell, one that has fibre. Or indeed a complex tree network could be built with a number of small cells feeding back to the one main small cell that has fibre. This idea does link well with 5G network slicing. This is the ability of a 5G network to reserve part of the network for a specific use of application. Now, as far as I understand, such implementations are under trial using higher frequency 5G (26GHz) but these networks have some issues when used outside in the UK. [Rain can cause the 26GHz wave to have less coverage than in dry summer conditions]

Small cells can also be used in a rural hamlet with no fibre or 5G coverage and the backhaul would be via satellite. Again this is a specialised niche, In general Small cells are installed in urban areas and fibre is available to get the data back to the network.

Hamburger Containerboard has partnered with Deutsche Telekom to install one of Europe's largest private 5G campus networks at its facility in Germany.

Telefonica Germany Implements 5G Campus Network Slicing for 6G Health Institute

Kontron Launches 5G Mobile Private Network for German Production Facility

Kontron has launched a commercial 5G campus network at Kontron Europe GmbH's production and warehouse facilities in Augsburg, Germany. https://www.microwavejournal.com/articles/41549-kontron-launches-5g-mobile-private-network-for-german-production-facility?utm_source=dlvr.it&utm_medium=tumblr

FPGA Industry worth $25.8 billion by 2029

The report "FPGA Market by Configuration (Low-end FPGA, Mid-range FPGA, High-end FPGA), Technology (SRAM, Flash, Antifuse), Node Size (≤16 nm, 20-90 nm, >90 nm), Vertical (Telecommunications, Data Center & Computing, Automotive) & Region - Global Forecast to 2029" The FPGA market is projected to grow from USD 12.1 billion in 2024 and is estimated to reach USD 25.8 billion by 2029; it is expected to grow at a Compound Annual Growth Rate (CAGR) of 16.4% from 2024 to 2029.

The growth of the FPGA market is driven by the growing utilization of Artificial Intelligence (AI) and Internet of Things (IoT) technologies across diverse applications, incorporating FPGAs into advanced driver assistance systems (ADAS), and the rising count of data centers and facilities for high-performance computing (HPC).

By node size, the ≤16 nm is projected to grow at a high CAGR of the FPGA market during the forecast period.

The high growth of the ≤16 nm FPGA can be attributed to its compact size and speedy processing abilities. FPGAs with ≤16 nm node size boast higher logic density than conventional FPGA devices. These FPGAs are tailored to handle high-bandwidth workloads such as high-performance computing (HPC), artificial intelligence (AI), and machine learning. In addition, these FPGAs can eliminate the standard performance issues that affect traditional FPGA devices available in the market. These FPGAs come at a higher cost and have a more limited supply chain. They boast features such as high-speed transceivers and specialized IP cores.

Flash technology in the FPGA market is expected to have the highest CAGR during the forecast period.

Flash-based FPGAs utilize non-volatile flash memory for configuration data storage, ensuring resilience and data retention during power cycling. Their advantages include non-volatility, lower power consumption, increased reliability, and inherent security features like encryption. Flash-based FPGAs find applications in embedded systems with infrequent reprogramming needs, cost-sensitive applications, low-power devices, and security-critical scenarios. Their cost-effectiveness and security features make them attractive for various applications, ranging from industrial controllers to security-sensitive environments.

Data Center & Computing segment will account for highest CAGR during the forecast period.

The data center & computing is projected to be the fastest-growing vertical from 2023 to 2028. This growth is attributed to the increasing number of data center facilities worldwide. For instance, in May 2023, Scala Data Centers (Brazil) launched the second-largest vertical data center in Latin America, the 6MW IT SGRUTB05, located in the Tamboré Campus, São Paulo state, Brazil. The facility demonstrated Scala's strategy to accommodate significant IT infrastructure growth securely. FPGAs are ideal for compute-intensive workloads in data center applications. As a result, establishing new data centers will provide market opportunities for FPGA providers in the future.

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Asia Pacific is poised to have significant growth in the FPGA market by 2029.

The FPGA market in the Asia Pacific region is experiencing significant growth, primarily fueled by the telecommunications sector's rapid advancement in 5G technology. China and Japan are leading in 5G deployment, closely followed by India, driving the demand for FPGAs. The APAC market is driven by the telecom sector's high-speed internet needs and the increasing demand for advanced network infrastructure. With their reprogrammable nature, FPGAs are well-suited for the complex data processing tasks associated with 5G applications, making them crucial in this evolving landscape. As per GSMA's "The Mobile Economy Asia Pacific 2023" report, the anticipated economic contribution of 5G to the Asia Pacific region in 2030 stands at a significant USD 133 billion, comprising over 13% of the total economic influence of mobile technology.

Key Players

Key companies operating in the FPGA market are Advanced Micro Devices, Inc. (Formerly Xilinx, Inc.) (US), Intel Corporation (US), Microchip Technology Inc., (US), Lattice Semiconductor Corporation (US), Achronix Semiconductor Corporation (US), QuickLogic Corporation (US), and FlexLogix (US), among others.

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Enhancing Enterprise Operations with Reliable Outdoor Cellular Coverage

In today's digital world, reliable outdoor cellular coverage is no longer optional but rather a critical requirement for modern enterprises. Whether your operations span vast campuses, remote industrial sites, or public spaces, smooth outdoor connectivity is essential to support workforce productivity, enable IoT systems, and ensure uninterrupted communication. Highway 9 is at the forefront of providing advanced outdoor mobiles and network solutions tailored to meet these complex demands.

Importance of Outdoor Cellular Coverage The businesses today have an unprecedented dependency on connectivity, with teams spread over outdoor sites ranging from construction yards, logistics stations, and farmhouses, who need access to critical applications to be contacted immediately in real time and keep safety at par.

Nevertheless, ensuring reliable outdoor connectivity is often not easy, primarily because of environmental interference, scarcity of infrastructure in remote locations, and demanding requirements of a complex network. Classic indoor networks have little capability to extend their performance to the outdoor environment. It is where Highway 9 specializes, bringing forward innovative solutions for smooth connectivity at any given site.

Highway 9’s Outdoor Coverage Solutions Highway 9 specializes in designing and implementing up-to-date outdoor cellular coverage solutions tailored to your unique operational needs. By leveraging advanced technologies like private 5G, multi-eSIM support, and optimized wireless infrastructure, Highway 9 provides enterprises with reliable connectivity that extends beyond indoor spaces to cover expansive outdoor environments.

Key Features of Highway 9’s Outdoor Connectivity Solutions:

Extended Range : Highway 9’s solutions ensure your network extends its reach to cover large open areas, delivering seamless performance even in challenging outdoor conditions.

Scalability : Whether you’re operating a small outdoor facility or managing a vast campus, Highway 9’s solutions are designed to scale as your business grows.

Reliability : Built to handle environmental challenges, Highway 9’s systems maintain consistent performance in all weather conditions, ensuring uninterrupted outdoor connectivity for critical operations.

Security : Robust security measures are implemented to protect your data and devices from cyber threats, ensuring safe and secure connectivity across your outdoor networks.

IoT and Edge AI Integration : Highway 9’s solutions are ideal for connecting outdoor mobiles and IoT devices, enabling real-time data processing and smart decision-making through edge AI integration.

Use Cases for Outdoor Cellular Coverage Highway 9’s solutions are ideal for a wide range of industries and applications. Here are just a few examples of how enterprises benefit from enhanced outdoor cellular coverage:

Construction Sites : Workers on construction sites rely on outdoor mobiles to communicate, coordinate tasks, and access project data. Reliable outdoor connectivity ensures that these activities are uninterrupted.

Logistics and Warehousing : In large warehouses or logistics hubs, smooth outdoor cellular coverage is critical for tracking inventory, managing shipments, and ensuring efficient operations.

Agriculture : Farmers and agricultural businesses benefit from robust outdoor connectivity to monitor crops, control irrigation systems, and access real-time weather updates.

Public Spaces and Events : For venues such as stadiums, parks, or festivals, providing strong outdoor network performance is key to enhancing visitor experience and supporting operational needs.

Oil and Gas Facilities : Remote industrial sites require highly reliable outdoor cellular coverage to monitor equipment, communicate with teams, and ensure safety compliance.

The Highway 9 Advantage Highway 9 is innovative and excellent, committed to making things happen with the best possible expertise in cloud-based mobility, networking, and private 5G technology, and it comes with customized solutions for unique outdoor environments challenges.

Advanced systems of the company are designed to meet current demands and are future proof, making sure your network infrastructure is ready to handle emerging technologies and changing business needs.

Conclusion Reliable outdoor cellular coverage is the cornerstone of modern enterprise connectivity. It supports productivity, enhances safety, and enables seamless integration of advanced technologies like IoT and edge AI. Highway 9's innovative solutions provide businesses with the tools needed to achieve robust outdoor connectivity, regardless of how complex or expansive operations may be.

Security in the 5G Era: Future Market Insights' Perspective and Predictions

The 5G Security Market is anticipated to achieve a valuation of US$ 12.5 billion by 2032, growing at a CAGR of more than 26.4% between 2022 and 2032, according to a recent analysis by Future Market Insights (FMI). In 2022, the market is anticipated to be worth US$ 1.2 billion. Throughout the projection period, the solutions category is anticipated to hold the biggest market share. In the following ten years, it is anticipated to expand at a CAGR of 25.8%.

Solutions include the equipment required to guarantee safety. Some tools that are utilised to provide 5G security include next-generation firewalls, data loss prevention, antivirus/antimalware, DDoS protection, security gateways, and sandboxing.

DLP instruments help to design data loss prevention methodologies by giving pre-portrayed approach controls to follow the advancement of data. It also hinders unapproved sharing, corrupting, as well as pull of data. The data loss is mainly done via malware attack and taking control of the system. According to Verizon’s 2021 Data Breach Investigations Report, malware was involved in nearly 15% of data breach. To reduce the malware attacks and security breaches companies are focussed in 5G technology.

Experience Exponential Growth: Secure Your Sample Report and Dominate the 5G Security Market @ https://www.futuremarketinsights.com/reports/sample/rep-gb-12179

With the growing concern of consumers worldwide regarding their health and their growing annual healthcare budget, healthcare stakeholders are becoming richer every day. But, at the same time with the evolution of new technologies and their need for speed and automation have made them vulnerable to cyber threats.

5G capabilities have added numerous advantages to healthcare sector including speed, capacity, hyper-connectivity, low latency, and data-driven insights. The higher speed and lower latency offered by 5G can be a boon to the cyber attackers as it offers them opportunity to access more data due to hyper-connectivity.

Key Takeaways from the 5G Security Market Study

5G Non-standalone is expected to hold the largest share in the architecture segment and is expected to grow at a CAGR of 24.9% in forecast period.

The U.S. holds a growth of CAGR 25.9% from 2022 to 2032.

The solutions segment is expected to emerge as the fastest-growing segment, registering a CAGR of 25.8% from 2022 to 2032.

“Companies implementing 5G technology need to focus on the security threats, 5G cloud infrastructure could make the ground breaking difference” says an FMI analyst.

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 Who is winning?

Leading players of 5G Security Market are focused in developing cloud infrastructure, because with the help of artificial intelligence and machine learning companies are automating the process and the data or formula details are stored in the cloud platform which can be accessed remotely. Key players present in the 5G Security Market industry are Ericsson, Palo Alto Networks, A10 Networks, Allot, Huawei, Nokia, Juniper Networks, Fortinet, Mobileum, ZTE among others.

Below enlisted are few of the recent developments in 5G Security Market:

In Mar 2022, Huawei, China Unicom, Partners Announced 5G Private Network PLUS Achievements. They are focused to provide high reliable campus networks, slice-based private network. China Unicom’s 5G Private Network PLUS Achievements were announced during MWC Barcelona 2022.

In Feb 2022, Ericsson announced that its 5G portfolio update has enabled energy efficiency. Seven new RAN products and solutions led by the flagship dual-band Radio 4490 which consumes 25% less power compared to current product.

Get More Valuable Insights 

Future Market Insights, in its new offering, provides an unbiased analysis of the global 5G Security Market, presenting historical demand data (2019-2021) and forecast statistics for the period from 2022 to 2032.

The study divulges compelling insights on the 5G Security Market based on Component (Solutions, Services) Network Component Security (RAN Security, Core Security) Architecture (5G NR Non-standalone, 5G NR Standalone) End User (Telecom Operators, Enterprises) Deployment Type (Cloud, On-Premises) Vertical (Manufacturing, Healthcare, Energy and Utilities, Retail, Automotive and Transportation, Public Safety, Media and Entertainment, Others) across five major regions.

Unlock Strategic Knowledge: Get Instant Access to Our Detailed Report @ https://www.futuremarketinsights.com/checkout/12179

Global 5G Security Market by Category

By Component:

Solutions

Next-Generation Firewall

Data Loss Prevention

Antivirus/Antimalware

DDoS Protection

Security Gateway

Sandboxing

Others

Services

Consulting Services

Implementation Services

Support and Maintenance Services

By Network Component Security:

RAN Security

Core Security

By Architecture:

5G NR Non-standalone

5G NR Standalone

By End User:

Telecom Operators

Enterprises

By Deployment Type:

Cloud

On-Premises

By Vertical:

Manufacturing

Healthcare

Energy and Utilities

Retail

Automotive and Transportation

Public Safety

Media and Entertainment

Others

By Region:

North America

Latin America

Europe

Asia Pacific

MEA

Best B. tech telecommunication colleges in Noida and Delhi NCR | Amity University Noida

Students who have completed or will pass class 12 in the science stream and have an interest in science and technology are looking for the best B. Tech. Telecommunication colleges in Noida, Amity University Noida campus is your answer.

Studying a Bachelor of Technology (B.Tech) in Telecommunication at Amity Noida offers several benefits for students. 

Why Choose B. Tech Communications?

Pursuing a career in the field of telecommunications. India is one of the world’s fastest-growing telecommunications markets, with a vast infrastructure and a growing demand for skilled professionals. 

Your search for the best Telecommunication Engineering College in Noida, B. Tech in telecommunication College in Noida or Delhi NCR concludes here. Stay tuned with us till the end of this article to know more.

Expanding Telecommunications Market 

The telecommunications market in India has been growing rapidly in recent years, with millions of new subscribers joining the network every month. With the introduction of 5G technology, the demand for skilled professionals in the field is expected to increase significantly. 

This means that there will be plenty of opportunities for graduates of B. Tech in Telecommunication to find employment in India’s expanding telecommunications market.

Modern and industry-based Curriculum 

At Amity University Noida campus, we offer a cutting-edge pedagogy that covers various aspects of telecommunications technology, including network design, wireless communication, satellite communication, and digital signal processing. 

Amitians gain hands-on experience through laboratory work and projects, preparing them for the real-world challenges of the industry. This what distinguishes Amity as one of the best B. Tech. Telecommunication colleges in Noida.

Internship Opportunities: Providing Amitians with valuable industry experience and networking opportunities. Students can intern at leading telecommunications companies in India, gaining practical knowledge and exposure to the latest technologies and practices. Another reason why we are among the top B. Tech telecommunication college in Delhi NCR .

Career Opportunities 

Graduates of B.Tech in Telecommunication can pursue careers in various areas of the telecommunications industry, including network planning and design, research and development, product management, and customer service. The telecommunications industry is one of the fastest-growing industries in India, providing graduates with plenty of job opportunities.

Studying from one of the best B. Tech. Telecommunication colleges in Noida offers several benefits, including access to a growing telecommunications market, a hi-tech and industry-based curriculum, internship opportunities, exposure to diversity and culture, and a wide range of career opportunities. Students who want to pursue a career in the telecommunications industry simply visit us on www.amity.edu  

Join Amity University, Noida campus and become an Amitian today!

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Miranda McClellan ’18, MEng ’19 awarded 2025 Schwarzman Scholarship

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Miranda McClellan ’18, MEng ’19 awarded 2025 Schwarzman Scholarship

MIT alumna Miranda McClellan ’18, MEng ’19 has been named a 2025 Schwarzman Scholar. In August 2024, she will join the program’s 150 scholars arriving from 43 countries and 114 universities from around the world. The Class of 2025 Scholars were selected from a pool of over 4,000 applicants. They will attend a one-year fully funded master’s degree program in global affairs at Schwarzman College, Tsinghua University in Beijing, China.

McClellan and her fellow Schwarzman Scholars will engage in a graduate curriculum focused on the pillars of leadership, global affairs, and China with additional opportunities for cultural immersion, experiential learning, and professional development. The fellowship program aspires to create a global network of leaders equipped with a well-rounded understanding of China’s changing role in the world.

Hailing from Texas, McClellan earned a BS in computer science and a minor in African Studies from MIT in June 2018 and received an MEng in computer science in June 2019. While at MIT, she served on the board for the Black Students’ Union and presented recommendations for making the campus more inclusive. After graduating MIT, McClellan won a Fulbright grant to conduct research in Spain, where she studied applying machine learning to 5G networks.

McClellan was a fellow at the Internet Society, Center for AI & Data Policy, and the National Science Policy Network. Since 2020, she has been working as a data scientist at Microsoft, building machine learning models to detect malware. In 2022, she co-founded Black Arts DFW to promote equitable access to fine arts for Black patrons in the Dallas area. She also serves as a cybersecurity curriculum developer and mentor to improve representation of minority women in tech roles. As a Schwarzman Scholar, McClellan hopes to compare the impact of Chinese and U.S. policies on issues of cybersecurity, privacy, and AI fairness.

MIT’s Schwarzman Scholar applicants receive guidance and mentorship from the distinguished fellowships team in Career Advising and Professional Development and the Presidential Committee on Distinguished Fellowships. Students and alumni interested in learning more should contact Kimberly Benard, associate dean and director of distinguished fellowships and academic excellence.

(2023-11-26 image ©bbc.co.uk] The UKG has set aside £40m to support a 5G Innovations project. A total of 10 projects have been given grants to invest in 5G technology for the good of the local economy.

Whilst 5G was seen as a better than 4G phone network, this was not really what 5G was about. It additionally was about enhancing IoT developments and real-time applications. It is these latter aspects that have been given grants to develop and test.

The project in Oxford is two-fold. One is to creat a private 5G network over the Harwell Science and Innovation Campus. The second is pilot a 5G network on the east-west rail lines within the city.

Web Werks - Iron Mountain JV launches its First Greenfield Data Center in Mumbai

The Web Werks – Iron Mountain Data Centers (IMDC) Joint Venture, announced the inauguration of its first greenfield data center in Navi Mumbai, MUM-2. Iron Mountain entered into a joint venture agreement with Web Werks in 2021.  William L. Meaney, President and Chief Executive Officer of Iron Mountain, presided over the inauguration ceremony that was held in Rabale, Navi Mumbai, in the presence of Web Werks and Iron Mountain global leadership teams, partners, and dignitaries from government authorities. Situated in a 120,000 square feet campus, the data center was built within 18 months of being announced, despite challenges caused by global supply disruptions and covid-19. The MUM-2 is a Tier 3-designated data center that can support 10MVA of gross power. It is adjacent to the Web Werks Mumbai-1 DC in Navi Mumbai allowing customers to take advantage of the existing rich interconnection ecosystem. The data center enables access to Tier-1 carriers, 200+ ISPs, three of India's largest peering exchanges, along with cloud on-ramp with major hyperscale cloud providers. Nikhil Rathi, CEO of Web Werks said, "We are pleased to announce the second data center facility in Navi Mumbai. Our existing data center in Mumbai is almost fully leased, and we see increased demand for our services from various customer segments. This demand will further be bolstered by the growing digitization, the rollout of the 5G network in India, and rising cloud adoption. With this new data center and our team of industry veterans, we will be able to support demand and offer a connectivity-rich ecosystem." William L. Meaney, President and Chief Executive Officer, Iron Mountain, said, "The opening of Iron Mountain and Web Werks' first greenfield data center marks an important step in advancing our Joint Venture's position as one of India's leading data center providers. The investment in this new facility reflects our commitment to investing in new highly connected, secure and compliant data centers in the APAC region that will serve our hyperscale, network, content and enterprise customers." The Web Werks - Iron Mountain Data Centers JV previously announced they have signed MoUs with the Karnataka and Tamil Nadu government to set up data centers in Bangalore and Hyderabad. The construction of the standalone data centers is nearing completion and the first data halls will be made available in the first half of 2023. In 2022, Web Werks as part of the joint venture participated in the 3rd ground-breaking ceremony at the Global Investors Summit in Uttar Pradesh, and announced plans to invest in a new hyperscale data center in Noida. The Web Werks - Iron Mountain Data Centers JV will continue to expand in existing markets of Mumbai, Pune and Noida, and also invest in new markets such as Chennai. Read the full article

Smart City and HLS Trends as Demonstrated at Global Technology Exhibition

The global technology exhibition CES 2021, this year in a virtual version, has highlighted several trends in the smart city, public safety, and autonomy and robotics realms. Advances in technologies such as LiDAR, 5G, and AI have formed the base for new applications and platforms, while the

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