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“The threats of data colonialism are real,” says Tahu Kukutai, a professor at New Zealand’s University of Waikato and a founding member of Te Mana Raraunga, the Māori Data Sovereignty Network. “They’re a continuation of old processes of extraction and exploitation of our land—the same is being done to our information.” To shore up their defenses, some Indigenous groups are developing new privacy-first storage systems that give users control and agency over all aspects of this information: what is collected and by whom, where it’s stored, how it’s used and, crucially, who has access to it. Storing data in a user’s device—rather than in the cloud or in centralized servers controlled by a tech company—is an essential privacy feature of these technologies. Rudo Kemper is founder of Terrastories, a free and open-source app co-created with Indigenous communities to map their land and share stories about it. He recalls a community in Guyana that was emphatic about having an offline, on-premise installation of the Terrastories app. To members of this group, the issue was more than just the lack of Internet access in the remote region where they live. “To them, the idea of data existing in the cloud is almost like the knowledge is leaving the territory because it’s not physically present,” Kemper says. Likewise, creators of Our Data Indigenous, a digital survey app designed by academic researchers in collaboration with First Nations communities across Canada, chose to store their database in local servers in the country rather than in the cloud. (Canada has strict regulations on disclosing personal information without prior consent.) In order to access this information on the go, the app’s developers also created a portable backpack kit that acts as a local area network without connections to the broader Internet. The kit includes a laptop, battery pack and router, with data stored on the laptop. This allows users to fill out surveys in remote locations and back up the data immediately without relying on cloud storage.

Aquatic Robot Market to Eyewitness Huge Growth by 2030

Latest business intelligence report released on Global Aquatic Robot Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand Aquatic Robot market outlook. List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis: Atlas Maridan ApS. (Germany), Deep Ocean Engineering Inc. (United States), Bluefin Robotics Corporation (United States), ECA SA (France), International Submarine Engineering Ltd. (Canada), Inuktun Services Ltd. (Canada), Oceaneering International, Inc. (United States), Saab Seaeye (Sweden), Schilling Robotics, LLC (United States), Soil Machine Dynamics Ltd. (United Kingdom) Download Free Sample PDF Brochure (Including Full TOC, Table & Figures) @ https://www.advancemarketanalytics.com/sample-report/177845-global-aquatic-robot-market Brief Overview on Aquatic Robot: Aquatic robots are those that can sail, submerge, or crawl through water. They can be controlled remotely or autonomously. These robots have been regularly utilized for seafloor exploration in recent years. This technology has shown to be advantageous because it gives enhanced data at a lower cost. Because underwater robots are meant to function in tough settings where divers' health and accessibility are jeopardized, continuous ocean surveillance is extended to them. Maritime safety, marine biology, and underwater archaeology all use aquatic robots. They also contribute significantly to the expansion of the offshore industry. Two important factors affecting the market growth are the increased usage of advanced robotics technology in the oil and gas industry, as well as increased spending in defense industries across various countries. Key Market Trends: Growth in AUV Segment Opportunities: Adoption of aquatic robots in military & defense

Increased investments in R&D activities Market Growth Drivers: Growth in adoption of automated technology in oil & gas industry

Rise in awareness of the availability of advanced imaging system Challenges: Required highly skilled professional for maintenance Segmentation of the Global Aquatic Robot Market: by Type (Remotely Operated Vehicle (ROV), Autonomous Underwater Vehicles (AUV)), Application (Defense & Security, Commercial Exploration, Scientific Research, Others) Purchase this Report now by availing up to 10% Discount on various License Type along with free consultation. Limited period offer. Share your budget and Get Exclusive Discount @: https://www.advancemarketanalytics.com/request-discount/177845-global-aquatic-robot-market Geographically, the following regions together with the listed national/local markets are fully investigated: • APAC (Japan, China, South Korea, Australia, India, and Rest of APAC; Rest of APAC is further segmented into Malaysia, Singapore, Indonesia, Thailand, New Zealand, Vietnam, and Sri Lanka) • Europe (Germany, UK, France, Spain, Italy, Russia, Rest of Europe; Rest of Europe is further segmented into Belgium, Denmark, Austria, Norway, Sweden, The Netherlands, Poland, Czech Republic, Slovakia, Hungary, and Romania) • North America (U.S., Canada, and Mexico) • South America (Brazil, Chile, Argentina, Rest of South America) • MEA (Saudi Arabia, UAE, South Africa)Furthermore, the years considered for the study are as follows: Historical data – 2017-2022 The base year for estimation – 2022 Estimated Year – 2023 Forecast period** – 2023 to 2028 [** unless otherwise stated] Browse Full in-depth TOC @: https://www.advancemarketanalytics.com/reports/177845-global-aquatic-robot-market

Summarized Extracts from TOC of Global Aquatic Robot Market Study Chapter 1: Exclusive Summary of the Aquatic Robot market Chapter 2: Objective of Study and Research Scope the Aquatic Robot market Chapter 3: Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis Chapter 4: Market Segmentation by Type, End User and Region/Country 2016-2027 Chapter 5: Decision Framework Chapter 6: Market Dynamics- Drivers, Trends and Challenges Chapter 7: Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile Chapter 8: Appendix, Methodology and Data Source Buy Full Copy Aquatic RobotMarket – 2021 Edition @ https://www.advancemarketanalytics.com/buy-now?format=1&report=177845 Contact US : Craig Francis (PR & Marketing Manager) AMA Research & Media LLP Unit No. 429, Parsonage Road Edison, NJ New Jersey USA – 08837 Phone: +1 201 565 3262, +44 161 818 8166 [email protected]

HiatusRAT Actors Targeting Web Cameras and DVRsThe Federal Bureau of Investigation (FBI) is issuing an Private Industry Notification (PIN) to bring attention to HiatusRAT1 scanning campaigns targeting Chinese-branded web cameras and DVRs. HiatusRAT is a Remote Access Trojan (RAT) that has likely been in use since July 2022. Cybercriminals frequently utilize RATs to remotely access and control targeted devices. Initially, the Hiatus campaign focused on exploiting outdated network edge devices. In March 2024, HiatusRAT operators launched a scanning campaign aimed at Internet of Things (IoT) devices across the United States, Australia, Canada, New Zealand, and the United Kingdom. The campaign targeted web cameras and DVRs, exploiting Read the full article

No More Panic When You Loose Your Ford Keys, Do This Instead!

Losing your Car Ford Key has you ever been looking in your pockets, luggage, or even back over your steps in a panic? Anyone may get terrified in such posture, but those under haste are more prone to lose it. Losing your automobile keys is similar to waiting for a calamity. You are helpless, stranded, and unsure about what to do going forward. Suppose I told you that the solution is not freaking out? You can manage this better so that you won't start to sweat. Are you prepared for learning how? Keep on reading!

Control yourself and consider what is happening.

The first and most crucial thing to do is keep calm. Though it might be difficult, stressing out can only lead to poor judgments. Breathe deeply then consider what is happening. Where last did you place your Ford Car Key? Could it have been thrown away? Locked in the vehicle is it? If you remain cool, you will be able to start properly solving the issue and think logically.

Maximize technological possibilities.

These days, technology may literally save your life. If you drive a later Ford, most likely it comes with a smartphone app allowing you to unlock and start it from your home. Should you be trapped inside the automobile or unexpectedly forget your automobile Ford Key, this feature might be very helpful. Make sure you downloaded and ready to use the app should things go wrong.

Contact a licenced locksmith professionally.

If you can't locate your Car Ford Key and cannot access your car using technology, it is time to contact a professional locksmith. A knowledgeable locksmith focused on automobile keys can rapidly create a new key or assist you to get back into your car. Choosing someone with Ford automobile expertise would help to prevent harm.

Speak with your Ford dealership.

You might also phoned your neighbourhood Ford dealership. Though it could take more time and money than other choices, their service can get you a new Car Ford Key. Going via the shop is ideal as it will guarantee that the key will operate with the security system of your automobile.

Although losing your Car Ford Key might seem horrible, it is not necessary. Without adding to your stress, being cool, technologically savvy, and contacting the appropriate individuals can help you find the solution.

Looking for a Ford Key? With Keys4Cars solely specializing as automotive locksmiths, this allows us to stock, cut & program a huge amount of vehicle keys & remotes for 99% of cars on our New Zealand roads. Contact us at 0800 AUTOKEY (0800 288653) and send us an email at [email protected].

How Indigenous Groups Are Leading the Way on Data Privacy

Indigenous groups are developing data storage technology that gives users privacy and control. Could their work influence those fighting back against invasive apps?

Rina Diane Caballar

A person in a purple tshirt wallking in a forest

A member of the Wayana people in the Amazon rain forest in Maripasoula, French Guiana. Some in the Wayana community use the app Terrastories as part of their mapping project.

Emeric Fohlen/NurPhoto via Getty Images

Indigenous groups are developing data storage technology that gives users privacy and control. Could their work influence those fighting back against invasive apps?

Even as Indigenous communities find increasingly helpful uses for digital technology, many worry that outside interests could take over their data and profit from it, much like colonial powers plundered their physical homelands. But now some Indigenous groups are reclaiming control by developing their own data protection technologies—work that demonstrates how ordinary people have the power to sidestep the tech companies and data brokers who hold and sell the most intimate details of their identities, lives and cultures.

When governments, academic institutions or other external organizations gather information from Indigenous communities, they can withhold access to it or use it for other purposes without the consent of these communities.

“The threats of data colonialism are real,” says Tahu Kukutai, a professor at New Zealand’s University of Waikato and a founding member of Te Mana Raraunga, the Māori Data Sovereignty Network. “They’re a continuation of old processes of extraction and exploitation of our land—the same is being done to our information.”

To shore up their defenses, some Indigenous groups are developing new privacy-first storage systems that give users control and agency over all aspects of this information: what is collected and by whom, where it’s stored, how it’s used and, crucially, who has access to it.

Storing data in a user’s device—rather than in the cloud or in centralized servers controlled by a tech company—is an essential privacy feature of these technologies. Rudo Kemper is founder of Terrastories, a free and open-source app co-created with Indigenous communities to map their land and share stories about it. He recalls a community in Guyana that was emphatic about having an offline, on-premise installation of the Terrastories app. To members of this group, the issue was more than just the lack of Internet access in the remote region where they live. “To them, the idea of data existing in the cloud is almost like the knowledge is leaving the territory because it’s not physically present,” Kemper says.

Likewise, creators of Our Data Indigenous, a digital survey app designed by academic researchers in collaboration with First Nations communities across Canada, chose to store their database in local servers in the country rather than in the cloud. (Canada has strict regulations on disclosing personal information without prior consent.) In order to access this information on the go, the app’s developers also created a portable backpack kit that acts as a local area network without connections to the broader Internet. The kit includes a laptop, battery pack and router, with data stored on the laptop. This allows users to fill out surveys in remote locations and back up the data immediately without relying on cloud storage.

Āhau, a free and open-source app developed by and for Māori to record ancestry data, maintain tribal registries and share cultural narratives, takes a similar approach. A tribe can create its own Pātaka (the Māori word for storehouse), or community server, which is simply a computer running a database connected to the Internet. From the Āhau app, tribal members can then connect to this Pātaka via an invite code, or they can set up their database and send invite codes to specific tribal or family members. Once connected, they can share ancestry data and records with one another. All of the data are encrypted and stored directly on the Pātaka.

Another privacy feature of Indigenous-led apps is a more customized and granular level of access and permissions. With Terrastories, for instance, most maps and stories are only viewable by members who have logged in to the app using their community’s credentials—but certain maps and stories can also be made publicly viewable to those who do not have a login. Adding or editing stories requires editor access, while creating new users and modifying map settings requires administrative access.

For Our Data Indigenous, access levels correspond to the ways communities can use the app. They can conduct surveys using an offline backpack kit or generate a unique link to the survey that invites community members to complete it online. For mobile use, they can download the app from Google Play or Apple’s App Store to fill out surveys. The last two methods do require an Internet connection and the use of app marketplaces. But no information about the surveys is collected, and no identifying information about individual survey participants is stored, according to Shanna Lorenz, an associate professor at Occidental College in Los Angeles and a product manager and education facilitator at Our Data Indigenous.

Such efforts to protect data privacy go beyond the abilities of the technology involved to also encompass the design process. Some Indigenous communities have created codes of use that people must follow to get access to community data. And most tech platforms created by or with an Indigenous community follow that group’s specific data principles. Āhau, for example, adheres to the Te Mana Raraunga principles of Māori data sovereignty. These include giving Māori communities authority over their information and acknowledging the relationships they have with it; recognizing the obligations that come with managing data; ensuring information is used for the collective benefit of communities; practicing reciprocity in terms of respect and consent; and exercising guardianship when accessing and using data. Meanwhile Our Data Indigenous is committed to the First Nations principles of ownership, control, access and possession (OCAP). “First Nations communities are setting their own agenda in terms of what kinds of information they want to collect,” especially around health and well-being, economic development, and cultural and language revitalization, among others, Lorenz says. “Even when giving surveys, they’re practicing and honoring local protocols of community interaction.”

Crucially, Indigenous communities are involved in designing these data management systems themselves, Āhau co-founder Kaye-Maree Dunn notes, acknowledging the tribal and community early adopters who helped shape the Āhau app’s prototype. “We’re taking the technology into the community so that they can see themselves reflected back in it,” she says.

For the past two years, Errol Kayseas has been working with Our Data Indigenous as a community outreach coordinator and app specialist. He attributes the app’s success largely to involving trusted members of the community. “We have our own people who know our people,” says Kayseas, who is from the Fishing Lake First Nation in Saskatchewan. “Having somebody like myself, who understands the people, is only the most positive thing in reconciliation and healing for the academic world, the government and Indigenous people together.”

This community engagement and involvement helps ensure that Indigenous-led apps are built to meet community needs in meaningful ways. Kayseas points out, for instance, that survey data collected with the Our Data Indigenous app will be used to back up proposals for government grants geared toward reparations. “It’s a powerful combination of being rooted in community and serving,” Kukutai says. “They’re not operating as individuals; everything is a collective approach, and there are clear accountabilities and responsibilities to the community.”

Even though these data privacy techniques are specific to Indigenous-led apps, they could still be applied to any other app or tech solution. Storage apps that keep data on devices rather than in the cloud could find adopters outside Indigenous communities, and a set of principles to govern data use is an idea that many tech users might support. “Technology obviously can’t solve all the problems,” Kemper says. “But it can—at least when done in a responsible way and when cocreated with communities—lead to greater control of data.”

Top Budget-Friendly Retractable Fly Screens Options

The necessity of fly screens can be felt across Auckland. The city of Auckland, which is situated on the coast of New Zealand, is not spared from the infestation of flies and insects. The constant threat of swarming flies and insects compels people to shut their windows and doors. Doing this stops them from enjoying the scenic view of the city, access to fresh air, and natural light. An easy way to deal with this problem would be to use a fly screen. Installing a fly screen, such as a retractable fly screen, can offer comfort and comprehensive protection from flies. However, people believe installing fly screens, especially retractable fly screens, in Auckland can create a hole in the pocket. But that is not true. There are plenty of budget-friendly retractable insect screens available in Auckland that you can install to get relief from insect infestations.

The Budget-Friendly Retractable Fly Screen Options In Auckland

If you scan the Auckland market for retractable fly screen options, you can commonly find the following options: flat mesh retractable fly screen, vertical mesh retractable screen, and DIY retractable fly screen. Let’s look at them in a bit more detail:

Flat Mesh Retractable Fly Screen

The flat mesh retractable fly screen is one of the most popular yet budget-friendly options for retractable fly screens in Auckland. The flat mesh fly screen, as the name suggests, covers your window from one end to the other. The flat fly screen's retractable mechanism enables it to pull back in horizontally. Consequently, providing unparalleled comfort and convenience. Let’s look at some of the reasons why you should be considering installing this budget-friendly retractable fly screen option:

View: When you install the flat retractable fly screen on the window, you can continue to enjoy the stunning view Auckland can offer without any obstruction. The mesh is quite fine, which makes it almost invisible to the eye, thus not blocking any view. This is a budget-friendly insect screen option you can install in your space.

Free Circulation of Air and Natural Light: When you install the retractable fly screen in your Auckland home, there is no need to shut the windows. You can keep the windows wide open for air and natural light circulation without fearing insects getting in.

Comfort and Convenience: People look out for the budget-friendly flat mesh fly screen option in the Auckland market because it can offer a lot of convenience and comfort to the space. The retractable technology of the flat fly screen allows the screen to draw back in horizontally. Thus, offering incomparable comfort and convenience.

Vertical Mesh Retractable Fly Screen

Another popular yet budget-friendly retractable fly screen that you can find in the Auckland market is a vertical mesh retractable fly screen. The vertical retractable insect screen available in Auckland can draw back in. Let’s look at the top reasons that make this screen so popular:

Easy to Use: The vertical mesh retractable fly screen is not only budget-friendly but also convenient. The retractable vertical fly screens in the Auckland market are available in manual and remote-controlled options. You can therefore choose the best option based on convenience and usability.

Aesthetic Appeal: The vertical mesh retractable fly screen is known for its aesthetic appeal. The sleek and modern frame of the fly screen can complement the overall aesthetic.

Durability: One thing you can vouch for in the vertical mesh retractable fly screen is its durability. The fibreglass and polyester mesh-made screen can tolerate harsh weather conditions without tattering. 

DIY Retractable Fly Screen

Another popular budget-friendly fly screen in Auckland is the Do It Yourself or DIY retractable fly screen. This type of insect screen is assembled without the help of professionals. They provide an easy, flexible, and convenient option to restrict flies and insects. Let’s review some of the best reasons to contemplate installing this budget-friendly DIY retractable fly screen.

Budget-Friendly: For people on a tight budget, the DIY retractable fly screen is a perfect solution. This is because you are in charge of assembling the components to help fit the windows and door frame yourself without a professional’s help. This helps reduce the overall cost.

Low Maintenance: The DIY retractable fly screen, with low maintenance and care, can continue filtering out flies and insects.

Space Saving: The DIY retractable fly screen is efficient and space-saving in nature. When you are not using it, it can be hidden and drawn back in when in use.

Fly screen installation is the most comprehensive method of filtering out flies and insects without using any toxic repellant. This is why you can commonly find fly screens installed in most Auckland homes. The retractable insect screens from Ecoscreen is the frontrunner in the abundance of choices available in the Auckland market. From budget-friendly options to ease of maintenance of retractable fly screens, you must go for a fly screen that can satisfy your needs.

"AR in Agriculture: Enhancing Efficiency or Just Overcomplicating Simple Tasks?"

As the market is still in its nascent stage, its growth is primarily driven by the increasing global demand for food, the rising population, the trend of digitalization in both industry (Industry 4.0) and agriculture (Agriculture 4.0), the need for simulated training, and the importance of precise field monitoring.

Digital technology has increasingly influenced various industries in recent years, and agriculture is no exception. Augmented Reality has emerged as a transformative force within the agricultural sector, offering innovative solutions that enhance productivity, efficiency, and sustainability.

Key Applications of Augmented Reality in Agriculture

Precision Farming: AR enables farmers to visualize and analyze critical data such as soil conditions, crop health, and weather patterns in real-time. This facilitates informed decision-making related to planting, irrigation, and harvesting, which leads to increased crop yields and optimized resource usage.

Training and Education: AR technology offers immersive training experiences, providing farmers with step-by-step guidance on equipment operation, crop management, and pest control. This contributes to skill development and better knowledge retention among agricultural professionals.

Remote Assistance: Farmers can receive virtual assistance from remote experts through AR-powered devices such as smart glasses or mobile phones. This helps in quick issue resolution, reducing downtime and improving overall farm productivity.

Crop Monitoring and Management: AR applications assist in monitoring crop health by overlaying real-time data on the condition of plants. This allows for early identification of diseases, pests, and nutrient deficiencies, enabling timely intervention and preventing potential yield losses.

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Benefits of Augmented Reality in Agriculture

Increased Efficiency: AR streamlines farm operations by providing timely information, reducing the need for manual tasks, and optimizing the use of resources.

Improved Decision-Making: Access to real-time data enables farmers to make more informed decisions regarding crop management, resource allocation, and overall farm strategy.

Sustainability: AR-facilitated precision farming practices contribute to sustainable agriculture by minimizing resource wastage, reducing environmental impact, and optimizing input usage.

Enhanced Productivity: AR tools lead to increased productivity through efficient resource management, improved crop management, and reduced operational downtimes.

Understanding Augmented Reality in Agriculture

Augmented Reality involves overlaying digital information onto the physical world, providing users with an enriched and interactive experience. In agriculture, AR integrates digital insights with the physical environment to deliver real-time data, insights, and visualizations to farmers and agricultural professionals. This technology utilizes devices such as smart glasses, smartphones, and tablets to create an immersive and informative environment.

Market Impact

The global shift towards digitization, industrialization, and sustainability has created significant opportunities for companies to invest in advanced technological tools within agriculture. Digitization is particularly evident in precision agriculture, smart farming, artificial intelligence (AI), the Internet of Things (IoT), and big data analytics, with North America and Europe leading the market.

Market Segmentation

By Application:

Indoor Farming

Outdoor Farming

By Solution:

Hardware

Software

Service

By Region:

North America: U.S., Canada, and Mexico

Europe: Germany, France, Netherlands, Italy, and Rest-of-Europe

U.K.

Asia-Pacific: Japan, India, Australia and New Zealand, and Rest-of-Asia-Pacific

China

Rest-of-the-World: South America, Middle East, and Africa

Recent Developments in the Global Augmented Reality in Agriculture Market

June 2022: Rams Creative Technologies Pvt. Ltd. announced a new partnership with Microsoft’s Mixed Reality Program (MRPP), a program designed by Microsoft for companies involved in designing, developing, and deploying mixed reality and augmented reality solutions for enterprises.

January 2022: Augmenta and Arva Intelligence entered into a partnership to promote affordable farm-ready automation, environmental enhancement, and carbon offsetting.

Report Overview : https://www.infiniumglobalresearch.com/market-reports/global-ar-in-agriculture-market

Market Drivers and Challenges

Drivers:

Digitization driving the next agricultural revolution (Agriculture 4.0)

AR as a tool for precise field monitoring

Growing demand for spatial computing applications

Challenges:

Lack of awareness

Limited research and development (R&D) and agricultural use-cases for AR

Conclusion

Augmented Reality is ushering in a new era of smart and sustainable farming practices in agriculture. By providing real-time data, enhancing decision-making, and optimizing resource use, AR is becoming an invaluable tool for farmers to meet the challenges of modern agriculture. As the market continues to develop, the integration of technology and agriculture is set to revolutionize food production and the management of agricultural resources.

Remote Desktop Software Market will grow at highest pace owing to increasing adoption of work-from-home trend

Remote desktop software allows users to access and control a remote computer over the Internet as if they were sitting right in front of that computer. Remote desktop software provides remote access to desktop environments, applications, systems, files and network resources, enabling remote teams with distributed workforce to work efficiently from anywhere anytime. Remote desktop software offers benefits such as centralized management, simplified support for remote workforce, reduced operational costs, increased employee productivity, business continuity and disaster recovery support.

The global remote desktop software market is estimated to be valued at US$ 3.98 Bn in 2024 and is expected to exhibit a CAGR of 12% over the forecast period 2024 to 2031.

Key Takeaways

Remote Desktop Software Market Companies include AeroAdmin, AnyDesk Software GmbH, AweRay, BeyondTrust Corporation, Citrix Systems, Inc., ConnectWise LLC, GoTo, ISL Online, LogMeIn Inc., Microsoft Corporation, RealVNC Limited, RemotePC, Securden, SolarWinds, and TeamViewer SE. These key players are focusing on innovative product launches and enhancing their product portfolios to strengthen their market position. For instance, in 2022, Citrix launched a new cloud service titled ‘Citrix DaaS’ aimed at improving employee experience and productivity.

The growing trend of remote working due to pandemic driven restrictions has increased the demand for remote desktop software significantly. Various organizations across industries have adopted remote working model either partially or fully to maintain business continuity. This has fueled the adoption of remote desktop software to support remote workforce. According to recent studies, the remote working trend is expected to continue even in post pandemic era, propelling the demand for remote desktop tools.

The remote desktop software providers are expanding their global footprint by entering into strategic partnerships with channel partners and introducing localized solutions. For example, in 2022, AnyDesk partnered with Anthropic to strengthen its AI capabilities and focus on global markets like Asia Pacific and Middle East. LogMeIn acquired Wombat Security to enhance its security portfolio and expand in Australia and New Zealand region. This global expansion has allowed players to tap growth opportunities in emerging economies.

Market Drivers

One of the key drivers for remote Desktop Software Market Demand is the growing cloud-based workplace culture and BYOD trend. Organizations across industries are adopting cloud-based systems that allow employees to access work files and applications from anywhere using their own devices. This has increased the relevance of remote desktop software for providing secure remote access. Remote desktop solutions allow IT administrators to manage employee devices centrally while providing flexibility. The ability of remote desktop tools to offer such benefits is driving their increased adoption globally.

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About Author:

Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191)

CAM Software Market - Forecast(2024 - 2030)

CAM Software Market Overview

CAM Software Market Size is forecast to reach $4.2 billion by 2030, at a CAGR of 6.5% during 2024-2030. North America held the largest market share of 30.7% in 2020 from overall global CAM Software Market. Growth in this region is attributed to the ever increasing demand from various industry verticals including Manufacturing, Automotive, Aerospace and Defense and others. Moreover, this region is witnessing a significant growth of around 5.9% during the forecast period 2024 – 2030. Surge in demand for CAM software to facilitate and automate the manufacturing processes, has significantly boosted the market growth. 

There is a noticeable shift towards cloud-based CAM solutions, driven by the need for enhanced collaboration, accessibility, and scalability across manufacturing operations. Cloud-based platforms offer manufacturers the flexibility to access CAM tools and data remotely, enabling real-time monitoring and optimization of production processes. The integration of artificial intelligence (AI) and machine learning (ML) algorithms into CAM software is gaining momentum. These technologies empower CAM systems to analyze vast amounts of manufacturing data, optimize toolpaths, and automate repetitive tasks, thereby improving efficiency and productivity. There is a growing emphasis on interoperability and compatibility among CAM software and other manufacturing systems and equipment. Seamless integration between CAM software and CAD (Computer-Aided Design) systems, CNC (Computer Numerical Control) machines, and IoT (Internet of Things) devices streamlines data exchange and enhances overall operational efficiency.

Report Coverage

The report: “CAM Software Market Report– Forecast (2024-2030)”, by IndustryARC covers an in-depth analysis of the following segments of the CAM Software market. By Model: 2D, 3D. By Organization Size: SME, Large Enterprises. By Pricing Model: One Time Payment, subscription By Integration: Standalone, Plug-in, Dual Capacity. By End User: Railways, Automotive, Healthcare, IT and Telecom, Power and Energy, Aerospace and Defense, Government and Public Sector, Marine, Industrial Machinery and Others. By Geography: North America (U.S, Canada, Mexico), Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands and Others), APAC (China, Japan India, South Korea, Australia & New Zealand, Indonesia, Malaysia, Taiwan and Others), South America (Brazil, Argentina, Chile, Colombia and others), and RoW (Middle East and Africa).

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Key Takeaways

Enterprises are adopting SaaS which is enabling redeployment of their software tools and data. Surge in use of CAM software as it provides improved product quality has considerably proven to be effective in sharing of design information.

With the use of CAM software machinery can turn raw material into finished products and helps in making a product by generating tool paths.  To automate the manufacturing process CAM uses software and computer-controlled machinery through which machine can produce parts easily.

There's a significant shift towards cloud-based CAM solutions, offering scalability, accessibility, and collaboration across diverse teams. Secondly, automation and integration are becoming paramount, with CAM software increasingly incorporating AI and machine learning capabilities to streamline manufacturing processes and enhance efficiency.

CAM Software Market Segment Analysis - By Model

The CAM software is segmented into two types by model, of which the 3D CAM software such as solid modeling, surface modeling, sculpting and others has the widest variety of applications and held the largest market share estimated to around 73.1% in 2023. The integration of 3D technology stands as a pivotal growth factor, revolutionizing design and manufacturing processes worldwide. The increasing demand for complex and intricate designs across various sectors, including aerospace, automotive, and healthcare, propels the adoption of 3D capabilities in CAM software. This demand stems from the need for enhanced precision and efficiency in product development cycles. Advancements in additive manufacturing techniques drive the expansion of 3D CAM software, facilitating seamless compatibility and optimization with 3D printing technologies. Such integration streamlines prototyping and production, fostering innovation and competitiveness within the industry. 

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CAM Software Market Segment Analysis - By End User

Among all the other end user industries, the CAM Software Market was dominated by Automotive vertical as they held the largest market share of around 23.6% in 2023. Additionally, the Healthcare sector is witnessing a significant growth rate estimated to around a CAGR of 11.32% during the forecast period 2024 – 2030. 

CAM Software Market Analysis-By Integration

The CAM software technology is segmented into three types by integration, of which the standalone has the widest variety of applications and held the largest market share estimated to around 74.1% in 2023.

CAM Software Market Segment Analysis - By Geography 

CAM Software market in Asia-Pacific region held significant market share of 40.5% in 2023. U.S is predicted to dominate the global CAM software market during the forecast period due to the region's large presence of distributors and resellers selling CAM software. Leading market vendors are introducing advanced CAM software which support stand alone as well as plug in type for Windows and MAC operating systems to address end user needs. The increased adoption rate of industrial robotics in the United States region is driving growth in this region, and CAM adoption has multiplied in the recent past. With the introduction of industrial robots, CAM has aided in the improvement of robotics efficiency. Shifting towards automated production, an established ecosystem for manufacturing practises, and continuous R&D investments by manufacturers to drive innovation into their manufacturing processes are key factors driving growth in this region. The rising cost of labour in the United States has compelled manufacturers to use automation to reduce expenses. The risks associated with human labour are also significantly decreased with the use of CAM software. 

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CAM Software Market Drivers 

Surge in application of CAM software in the industry verticals and adoption of Cloud

The surge in industrialization have resulted in the adoption of CAM software for precision and cost effective designing purposes. In January 2023, Open Mind Technologies unveils the HyperMill 2023 CAD/CAM software suite, featuring advanced capabilities for streamlined NC programming in 2.5D to five-axis milling applications, enhancing user productivity and efficiency. CAM software performs engineering analysis and computer numerical control code generation using 3D part modeling along with handling large assemblies. Many organizations, particularly manufacturing companies, are now taking advantage of the emerging cloud and Internet of Things (IoT) developments to make their operations operate leaner and increase sales. IoT apps are crucial to delivering updates in real time, including shipment and storage status, repair and proactive maintenance warnings, and details from the supply chain. With the CAM software the manufacturers are finding end-to-end digital thread running through the manufacturing process. The replacement of aging aircrafts with the new ones along with the demand for commercial aircrafts are the reasons due to which the major airlines are expanding globally. The newer aircrafts are equipped with latest techniques as the aircraft manufacturers are investing heavily in new computer systems. Computer aided design (CAD) and computer aided manufacturing (CAM) makes airplane design easier.

Increased Use of CAM Software for Industrial Machinery

CAM software is very useful in manufacturing, planning and control of products as it makes effective use of computer technology. Computer aided software (CAM) saves time, labor and cost by bringing automation through real time control and robotics in production processes. In recent years CAM software is facing steady growth owing to its various applications such as numerical control, computer numerical control, industrial robots, design of dies and molds for casting, design of tools and fixtures and EDM electrodes and quality control and inspection in manufacturing plants. CAM software is finding huge application in the packaging machinery as this machinery are becoming increasing complex with higher efficiency demand. This software packages provides ability to produce parts faster and provides feedback and update the CAD models. CAM software is adopted as a powerful software for advanced manufacturing tools. The increased demand for packaged foods, continuous production of machines and drugs and increasing spending on branded products have aided the growth of lean packaging operations which in turn have driven the growth of CAM software. Some of the major key players of packaging technology such as Krones, Robert Bosch, Coesia and others are focusing on the production of the smart and innovative machinery to provide enhanced services with optimum safety due to which CAM software is highly used in the designing processes.

CAM Software Market Challenges

Cost Related Issues

Considerable amount of PC processing power is required for CAM software which ultimately involves high quality components that have high cost which is a major hurdle to the broader usage of CAM technological innovation. Although the CAM software is becoming more versatile and convenient, the complexness of the application makes it more difficult for the first time users to learn it. In the manufacturing sector CNC machinery is widely used where pre-programmed computer software (CAM) is used to control the machining tools as it uses numerical code. It carriers out variety of applications such as routing, milling, punching, turning and lathing. Although the CNC machining is used in the supply chain process and adopted as a standard machinery it requires greater initial investment than machines that can be operated manually due to which it is very expensive. Most of the students rarely adopt manual machine operators as a skill which is leading to the complete loss of long preserved skills. In addition the investment in CNC machines can lead to the chances of unemployment. Many of the countries do not give proper training of manually operated lathers. In case of any damage highly skilled professional is required to solve the damage or error problem. Regular inspection with a highly skilled person is required for the maintenance and error less results.

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CAM Software Market Landscape

Product launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the CAM Software market. CAM Software top 10 companies include Autodesk, Siemens, Dassault Systemes, BobCAD-CAM, Cimatron, Hexagon AB, HCL Technologies, GRZ Software, Open Mind Technologies, SolidCAM among others.

Acquisitions/Product Launches

In May 2023, BLM Group launched VGPNext, a cutting-edge CAD/CAM programming software for tube and wire bending machines, streamlining part program identification, job simulation, and production initiation with minimal clicks.

In September 2022, Planmeca releases a new Romexis CAD/CAM software module designed to streamline intraoral scanning and facilitate collaboration with external partners for restoration design and manufacturing, enhancing digital dentistry workflows.

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Intelligent Electronic Lock Market Future Trends by 2024-2032

The Reports and Insights, a leading market research company, has recently releases report titled “Intelligent Electronic Lock Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2024-2032.” The study provides a detailed analysis of the industry, including the global Intelligent Electronic Lock Market share, size, trends, and growth forecasts. The report also includes competitor and regional analysis and highlights the latest advancements in the market.

Report Highlights:

How big is the Intelligent Electronic Lock Market?

The intelligent electronic lock market is expected to register a CAGR of 7.8% during the forecast period of 2024 to 2032.

What are Intelligent Electronic Lock?

An Intelligent Electronic Lock is a sophisticated locking mechanism that employs electronic and digital technologies to deliver advanced security features and remote access control. These locks often feature keyless entry, biometric authentication, and the ability to be monitored and controlled remotely. They are widely used in residential, commercial, and industrial settings to bolster security and convenience. Intelligent electronic locks can be operated using various methods, such as smartphones, keypads, and RFID cards, offering users flexibility and ease of use. Designed to offer a higher level of security than traditional mechanical locks, they come equipped with features like audit trails and real-time notifications to alert users of any unauthorized access attempts.

Request for a sample copy with detail analysis: https://www.reportsandinsights.com/sample-request/1820

What are the growth prospects and trends in the Intelligent Electronic Lock industry?

The intelligent electronic lock market growth is driven by various factors and trends. The market for intelligent electronic locks is growing rapidly, fueled by the increasing demand for advanced security solutions and the rise of smart home automation. These locks offer enhanced security features such as keyless entry, remote monitoring, and compatibility with smart home systems. They are widely used in residential, commercial, and industrial settings due to their convenience and advanced security capabilities. The market offers a variety of products, including biometric locks, keypad locks, and RFID locks, to meet the diverse needs of consumers. Key market trends include the integration of artificial intelligence and machine learning for enhanced security, as well as the development of energy-efficient and environmentally friendly lock systems. Hence, all these factors contribute to intelligent electronic lock market growth.

What is included in market segmentation?

The report has segmented the market into the following categories:

By Type:

Biometric Locks

Keypad Locks

Bluetooth/Wi-Fi-enabled Locks

RFID/NFC-enabled Locks

Magnetic Strip Locks

By End Use:

Residential

Commercial

Industrial

By Application:

Home Security

Office/Commercial Security

Hospitality

Government and Defense

Automotive

Healthcare

Others

Market Segmentation By Region:

North America

United States

Canada

Europe

Germany

The U.K.

France

Spain

Italy

Russia

Poland

BENELUX

NORDIC

Rest of Europe

Asia Pacific

China

India

Japan

South Korea

Australia & New Zealand

ASEAN

Rest of Asia Pacific

Latin America

Brazil

Mexico

Argentina

Rest of Latin America

Middle East & Africa

Saudi Arabia

United Arab Emirates

South Africa

Egypt

Israel

Rest of MEA

Who are the key players operating in the industry?

The report covers the major market players including:

Assa Abloy AB

Allegion plc

dormakaba Holding AG

Salto Systems S.L.

Samsung Electronics Co., Ltd.

Honeywell International Inc.

Siemens AG

Schneider Electric SE

Panasonic Corporation

Bosch Security Systems Inc.

Kwikset Corporation

August Home Inc.

LockState

ADEL Locks

View Full Report: https://www.reportsandinsights.com/report/Intelligent Electronic Lock-market

If you require any specific information that is not covered currently within the scope of the report, we will provide the same as a part of the customization.

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Our offerings include comprehensive market intelligence in the form of research reports, production cost reports, feasibility studies, and consulting services. Our team, which includes experienced researchers and analysts from various industries, is dedicated to providing high-quality data and insights to our clientele, ranging from small and medium businesses to Fortune 1000 corporations.

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Measuring the Impact of Land Restoration on Ecosystem Services and Human Well-being

Land restoration initiatives play a pivotal role in reversing ecosystem degradation, enhancing biodiversity, and improving human well-being. However, assessing the impact of these efforts requires a comprehensive understanding of the interlinkages between restored ecosystems and the benefits they provide to both nature and society. In this article, we delve into the methodologies and key considerations for measuring the impact of land restoration on ecosystem services and human well-being.

Ecosystem Services Framework

Ecosystem services encompass a wide range of benefits that humans derive from nature, including provisioning (e.g., food, water), regulating (e.g., climate regulation, flood control), cultural (e.g., recreation, spiritual value), and supporting (e.g., nutrient cycling, soil formation) services.

The ecosystem services framework provides a structured approach for assessing the benefits generated by restored landscapes, enabling decision-makers to quantify and value these contributions.

Biophysical Indicators of Ecosystem Health

Monitoring biophysical indicators, such as vegetation cover, soil health, water quality, and biodiversity, is essential for evaluating the ecological outcomes of land restoration projects.

Remote sensing technologies, ecological surveys, and field measurements are commonly used to track changes in ecosystem structure and function over time, providing insights into the effectiveness of restoration interventions.

Assessment of Carbon Sequestration and Climate Regulation

Land restoration plays a critical role in mitigating climate change by sequestering carbon dioxide from the atmosphere and enhancing carbon stocks in vegetation and soils.

Carbon accounting methodologies, such as carbon footprint assessments and greenhouse gas inventories, quantify the carbon sequestration potential of restored landscapes, contributing to climate change mitigation efforts.

Evaluation of Water Resources and Watershed Services

Restored ecosystems can improve water availability, quality, and regulation, benefiting both human communities and freshwater ecosystems.

Hydrological models, water balance assessments, and hydrological monitoring enable the measurement of changes in water flow, infiltration, and retention following land restoration activities, facilitating informed water resource management decisions.

Assessment of Socio-economic Benefits and Human Well-being

Beyond ecological outcomes, land restoration projects can have profound socio-economic impacts on local communities, including improved livelihoods, enhanced food security, and increased access to ecosystem services.

Participatory approaches, socio-economic surveys, and qualitative assessments are employed to capture the diverse range of benefits and trade-offs associated with land restoration, ensuring that interventions align with community needs and priorities.

Integration of Stakeholder Perspectives and Indigenous Knowledge

Engaging stakeholders, including local communities, indigenous peoples, and land users, in the monitoring and evaluation process enhances the relevance and legitimacy of impact assessments.

Incorporating indigenous knowledge systems and traditional ecological knowledge enriches the understanding of ecosystem dynamics and fosters culturally appropriate and context-specific restoration strategies.

Summary

Measuring the impact of land restoration on ecosystem services and human well-being requires a holistic and interdisciplinary approach that integrates ecological, socio-economic, and cultural dimensions. By adopting robust methodologies, leveraging cutting-edge technologies, and embracing participatory processes, we can accurately assess the effectiveness of land restoration initiatives and maximize their benefits for both nature and society.

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Name: Mana Tahuna

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Phone: +64 21 860 393

NCSC and partners issue advice to counter China-linked campaign targeting thousands of devices

The UK and international allies are urging individuals and organisations to take protective action after exposing a global network of compromised internet-connected devices operated by a China-linked company and used for malicious purposes. The National Cyber Security Centre (NCSC) – a part of GCHQ – has today (Wednesday) issued a new advisory alongside partners in the United States, Australia, Canada, and New Zealand which reveals how a company based in China with links to China’s government has managed a botnet consisting of over 260,000 compromised devices around the world. A botnet is a network of internet-connected devices that are infected with malware and controlled by a group to conduct co-ordinated cyber attacks without the owners’ knowledge. The compromised devices include routers, firewalls, and Internet of Things (IoT) devices – including webcams and CCTV cameras – which can then be used by the actors for a variety of malicious purposes, such as anonymous malware delivery and distributed denial of service (DDoS) attacks. The advisory names Integrity Technology Group as responsible for controlling and managing the botnet, which has been active since mid-2021, and has been utilised by the malicious cyber actor commonly known as Flax Typhoon. The advisory shares technical details and mitigation advice to help defend against malicious activity delivered through this botnet. It also highlights the risk to owners of how unpatched and end-of-life equipment can be exploited by malicious cyber actors. Paul Chichester, NCSC Director of Operations, said:  “Botnet operations represent a significant threat to the UK by exploiting vulnerabilities in everyday internet-connected devices with the potential to carry out large-scale cyber attacks. “Whilst the majority of botnets are used to conduct co-ordinated DDoS attacks, we know that some also have the ability to steal sensitive information. “That’s why the NCSC, along with our partners in Five Eyes countries, is strongly encouraging organisations and individuals to act on the guidance set out in this advisory – which includes applying updates to internet-connected devices – to help prevent their devices from joining a botnet.” As with similar botnets, the botnet described in this advisory is composed of a network of devices, known as bots, which are infected with a type of malware that provides threat actors with unauthorised remote access. To recruit a new ‘bot’, the botnet system first compromised an internet-connected device using a known vulnerability exploit which then provides access to establish a remote command and control execution. This advisory has been co-sealed by the NCSC and agencies in the United States, Australia, Canada, and New Zealand. Technical Info The botnet uses the Mirai family of malware, designed to hijack IoT devices such as webcams, DVRs, IP cameras, and routers running Linux-based operating systems. The Mirai source code was posted publicly on the Internet in 2016, resulting in other hackers creating their own botnets based on the malware. Sincethat time, various Mirai botnets have been used to conduct DDoS and other malicious activities against victim entities within the United States. The investigated botnet’s customized Mirai malware is a component of a system that automates the compromise of a variety of devices. To recruit a new “bot,” the botnet system first compromises an Internet-connected device using one of a variety of known vulnerability exploits (see Appendix B: Observed CVEs). Post-compromise, the victim device executes a Mirai-based malware payload from a remote server. Once executed, the payload starts processes on the device to establish a connection with a command-andcontrol (C2) server using Transport Layer Security (TLS) on port 443. The processes gather system information from the infected device, including but not limited to the operating system version and processor, memory and bandwidth details to send to the C2 server for enumeration purposes. The malware also makes requests to “c.speedtest.net,” likely to gather additional Internet connection details. Some malware payloads were self-deleting to evade detection. A variety of subdomains of “w8510.com” were linked to the botnet’s C2 servers. As of September 2024, investigators identified over 80 subdomains associated with w8510.com Read the advisory in full Read the full article

SAIC Motor and AWS Partner for Intelligent Mobility

Introducing SAIC MOTOR Overseas Intelligent Mobility Technology today. The Fortune Global 500 corporation and biggest automaker in China, i-SMART connected vehicle platform, has chosen AWS as its key cloud provider. SAIC MOTOR powers its i-SMART connected vehicle platform which enables intelligent driving experiences in half a million vehicles across Australia, Europe, the Middle East, New Zealand, and South America with the help of AWS’s global infrastructure and portfolio of technologies, including high performance compute (HPC), storage, and Internet of Things (IoT).

SAIC i-SMART, which runs on AWS, lets drivers use their smartphone to monitor, control, and update in-car systems anywhere in the globe. SAIC MOTOR stores vast volumes of vehicle data on Amazon Simple Storage solution (Amazon S3), an object storage solution with industry-leading durability, availability, security, and scalability. SAIC MOTOR can extract more value from car data to improve the driving experience thanks to Amazon Relational Database Service (Amazon RDS).

For instance, this information is utilized to enable remote functions like door lock and unlock as well as preheating or chilling the cabin prior to drivers getting back into their cars. In addition, these customized services can execute a remote diagnostic check to verify a car is operating at peak efficiency and doesn’t require maintenance, or they can evaluate driving habits and vehicle systems to recommend nearby fueling or charging stations depending on the projected driving distance.

In addition, SAIC MOTOR leverages serverless services like AWS Lambda and Amazon Elastic Kubernetes Service (Amazon EKS) to create an elastic and agile architecture for connected vehicles that can grow internationally. Customers may enjoy seamless, low-latency access thanks to this architecture, especially during peak driving hours like the morning and evening commutes. Furthermore, SAIC MOTOR developed serverless IoT apps based on AWS IoT Core for data collection, processing, and analysis related to vehicles.

The carmaker can safely link cars and gadgets to the cloud using Amazon IoT Core. It can also process massive amounts of data for in-the-moment analysis and remotely update the entire fleet to improve driving. In order to customize the in-car experience with virtual assistants that can offer customized recommendations, like routing and virtual tours, and to automatically diagnose vehicle issues using the owner’s manual, SAIC MOTOR plans to utilize AWS generative artificial intelligence (generative AI) services in the future. One such service is Amazon Bedrock, which makes multiple foundation models available via an API.

Additionally, SAIC MOTOR included Amazon Music, an audio entertainment platform that links listeners, musicians, and artists via music and culture, to improve the in-car experience for its clients. Available on the MG ZS EV, MG5 EV, and MG4 EV models, the i-SMART connected car platform with Amazon Music provides drivers and passengers with premium streaming media services as part of its in-vehicle listening experience.

Jie Xu, the CTO of SAIC MOTOR Overseas Intelligent Mobility Technology Co., Ltd., stated, “AWS has years of expertise in developing connected vehicles and data analysis platforms. AWS has deep experience driving innovation in the automotive industry.” “SAIC MOTOR launched the i-SMART connected car system in countries across the world with the support of AWS’s vast cloud capabilities, worldwide infrastructure, and industry-leading safety and compliance processes. In order to develop novel driver experiences, grow our company, and provide connected vehicles to more customers, SAIC MOTOR is excited to keep collaborating with AWS.

Vice president and general manager of Amazon’s Automotive and Manufacturing, Wendy Bauer, stated that the company is “excited to support SAIC MOTOR and its work to build and offer an industry-leading connected vehicle platform, bringing a customized and intelligent connected-car experience to overseas consumers.” “In the future, AWS will keep assisting the automotive sector in developing new features and services that boost safety regulations, promote sustainable mobility, and produce intelligent and networked automobiles for the worldwide market.”

Regarding Amazon Web Services

Amazon Web Services has been the largest and most popular cloud platform since 2006. AWS has steadily grown its service portfolio to support almost any workload with over 240 fully featured services for compute, storage, databases, networking, analytics, machine learning and AI, IoT, mobile, security, hybrid, VR and AR, media, and application development, deployment, and management from 102 Availability Zones in 32 geographic regions. There are plans to add 15 more Availability Zones and five more AWS Regions in Canada, Germany, Malaysia, New Zealand, and Thailand. AWS is trusted by millions of clients, including the biggest corporations, fastest-growing startups, and top government agencies, to power their infrastructure, reduce costs, and increase agility.

Regarding SAIC MOTOR Foreign Intelligence Mobility

In 2018, SAIC Motor International Co., Ltd. and Shanghai Automobile Group Investment Management Co., Ltd. jointly invested in and founded SAIC MOTOR Overseas Intelligent Mobility Technology Co., Ltd. SAIC MOTOR Overseas has spent many years developing a versatile and effective business model for its overseas operations by being extensively involved in a number of industries, including global data security network security, worldwide in-vehicle intelligent service ecology, overseas intelligent cockpits, and overseas cloud services. By introducing digital technology, it helps original equipment manufacturers (OEMs) establish linked vehicle product systems in foreign markets, strengthens the brand’s unique competitiveness, and develops intelligent connected travel services appropriate for different nations and regions.

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Best Smart Locks New Zealand | H4US

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