The IoT Smarthome Battlefield: A Jointly Endorsed IoT Standard for the Home Area Network

HUI FU | February 12, 2020 | 304 views

Google announced that together with Amazon and Apple (the big 3 smart home players) they will work on the adoption of a joint wireless IoT standard for the smart home. This new connectivity standard is designed to make it easier for smart home products to work with each other.In the statement, Google said they were “joining Amazon, Apple and others to create Connected Home over IP, a new independent working group managed by the Zigbee Alliance (separate from the existing Zigbee 3.0/Pro protocol). We’re contributing two of our market-tested and open-source smart home technologies, Weave and Thread. Both are built on IP and have been integrated into millions of homes around the world.”

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Top 5 Trends in IoT Data Security in 2023

Article | July 13, 2022

5G trends are shaping the future of various technologies, from the Internet of Things to virtual reality. Learn more about the top trends in 5G to stay ahead of the competition in this sector. Contents 1 The Current State of IoT Data Security 2 Top Trends in IoT Data Security in 2023 2.1 Emergence of AI-powered Security Solutions 2.2 Potential of Blockchain Technology 2.3 Growing Use of Zero-trust Security Frameworks 2.4 Greater Emphasis on End-to-end Encryption 2.5 Industry and Government Collaboration 3 Conclusion As the Internet of Things (IoT) continues to rapidly expand, data security has become a critical concern for businesses and consumers alike. With recent high-profile breaches and cyberattacks, the latest trends in IoT data security focus on implementing stronger encryption and authentication protocols, as well as enhancing device-level security measures to protect sensitive data from potential threats. 1 The Current State of IoT Data Security The growing adoption of IoT has led to a digital transformation in the way businesses operate. IoT technology has enabled organizations to collect and analyze vast amounts of data in real-time, allowing for improved decision-making, increased operational efficiency, and enhanced customer experiences. Despite these benefits, organizations are currently facing significant IoT data security challenges that must be addressed to fully realize the potential of this technology. Companies recognize unauthorized access (43%), data privacy (38%), and data integrity (31%) as top IoT security challenges. (Source: Statista) Businesses are actively addressing these security challenges by investing in IoT and data security solutions. The global market for IoT data security continues to grow, and companies are increasingly investing in strategies for data security in the IoT. To secure access to mission-critical connected devices and sensitive data, it is imperative for businesses to keep track of IoT trends in data security. 2 Top Trends in IoT Data Security in 2023 2.1 Emergence of AI-powered Security Solutions AI-powered security systems can rapidly detect and respond to attacks, reducing the likelihood of significant damage to IoT devices or networks. In particular, its ability to analyze vast amounts of data in real-time and identify anomalies or potential security threats makes AI a vital component of an IoT data security strategy. Detecting an IoT security breach in progress is possible with AI security systems, which identifies unusual behavior by analyzing data patterns from IoT devices. AI can also be used to diagnose potential vulnerabilities in IoT devices and networks, allowing organizations to take proactive measures to address them before they are exploited. The pattern recognition capabilities of AI also help secure IoT technology through predictive analytics. By analyzing past data breaches and attacks, AI systems detect potential cyberattacks and develop predictive models to detect and respond to them proactively. AI-driven security systems have the potential to streamline incident response by lessening the load on cybersecurity teams and reducing response time. The ability to adapt and learn from a previous cyberattack allows machine learning (ML) algorithms to create novel strategies that prevent similar attacks in the future. AI represents a significant development in addressing IoT security concerns since it provides sophisticated capabilities to protect IoT networks and devices that conventional security measures cannot provide. AI-enabled security systems deliver immediate identification, reaction, and deterrence of possible threats, which is why they will be critical in ensuring data security in the IoT. 2.2 Potential of Blockchain Technology Blockchain's unique features, such as decentralization, immutability, and cryptographic security, provide a robust framework for secure communication and data sharing among IoT devices. By leveraging blockchain technology, businesses can ensure their IoT data's integrity, confidentiality, and authenticity. One of the key advantages of using blockchain for IoT data security is its decentralized nature. Blockchain networks are distributed and run on a peer-to-peer basis, making it difficult for attackers to compromise the network. This also makes it an ideal solution for recording and securing data from multiple access points, such as IIoT systems. Additionally, blockchain networks are designed to be immutable, making them an ideal solution for IoT data security and providing a tamper-proof and transparent ledger for recording data flow. This can help enterprises identify and mitigate security threats more quickly and efficiently, reducing the risk of cybersecurity incidents. A research paper published in Wireless Networks highlights the advantage of using a Blowfish Blockchain Model to enable IoT data sharing security, particularly for multimedia content. Blockchain technology is a promising solution for securing IoT data. Its unique features, including decentralization, immutability, and cryptographic security, make it an ideal candidate for many IoT use cases. This technology can potentially transform data security for IoT devices by offering the IoT sector the solution it requires. 2.3 Growing Use of Zero-trust Security Frameworks Zero-trust frameworks ensure that only authorized devices and users can access sensitive data and systems, protecting against insider threats and external attacks. This is especially important in IoT environments, where devices may lack traditional security measures like firewalls and antivirus software. Device identity management is a critical component of zero-trust security for IoT data. Only recognized devices are allowed access to a network or data by leveraging processes and technologies that authenticate device identity. With Zero Trust, any connected device must be authorized before accessing any resources, including data. By closely monitoring and managing access, businesses can maintain the security of the IoT. This protects against threats that exploit weak device identity management. Overall, zero-trust security frameworks are essential for safeguarding IoT data from malicious actors and protecting the integrity of IoT ecosystems. 2.4 Greater Emphasis on End-to-end Encryption IoT poses a threat to data security when users do not take proper measures to protect the data generated. End-to-end encryption provides a strong layer of protection against unauthorized access, interception, and other cyber threats by encrypting data at the source, during transmission, and at rest. IoT devices collect and process a wide range of sensitive data, from personal information and financial data to critical infrastructure and medical records. This data is often transmitted over networks and shared with cloud services, and the risk of cyberattacks during transmission cannot be ignored. End-to-end encryption can provide a strong layer of protection by encrypting data at the source, working to improve the limited data security of the IoT. As the use of IoT devices continues to grow, implementing end-to-end encryption will become increasingly important for ensuring the security and privacy of sensitive IoT data. 2.5 Industry and Government Collaboration In late 2021, the UK and Singapore governments became the first to announce obligatory security requirements for specific categories of IoT devices. Due to IoT data security risks, other countries have also defined guidelines, best practices, certifications, or labeling efforts for IoT devices. However, adoption among IoT device makers and vendors has been slow. The National Institute of Standards and Technology (NIST) has been working on establishing cybersecurity guidelines for IoT devices. In June 2022, NIST incorporated consumer IoT cybersecurity criteria into its family of IoT cybersecurity guidance. NIST is also working with the IoT industry to design, standardize, and test solutions for IoT security controls. By discussing IoT device security concepts and establishing guidelines in collaboration, the industry and the government can foster adoption of general methods to protect IoT devices from cybersecurity breaches. Such cooperation can be crucial in ensuring that IoT devices are secure from cyber threats and that IoT device makers and vendors adopt best practices for IoT device security. 3 Conclusion The trends in IoT data security showcase several proactive measures that can be taken to protect sensitive data in a rapidly evolving technological landscape. In addition, organizations are moving towards a more comprehensive approach to IoT data security with the emergence of AI-powered security solutions, blockchain technology, and the shift to zero-trust security frameworks. As IoT devices continue to proliferate, organizations must prioritize security and data protection to prevent data breaches and cyberattacks. This emphasizes the need for collaboration between industry and government to strengthen security measures and improve IoT device security by building with a ‘secure by design’ approach.

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Top Challenges in IoT Data Governance in 2023

Article | August 10, 2022

Explore the emerging complexities of IoT data governance with 7 key challenges to tackle. Address data privacy, security, and ethical concerns, empowering your business for success in 2023 and beyond. Contents 1 The Case for Maintaining IoT Data Governance 2 Challenges of IoT Data Governance 2.1 Lack of Organizational Commitment 2.2 Data Privacy Concerns 2.3 Lack of Endpoint Security for IoT Devices 2.4 Issues with IoT Device Authentication 2.5 Increasing Volume of Unstructured Data 2.6 Unethical Use of IoT Data 2.7 Inadequate Data Governance Protocols 3 Addressing IoT Data Governance Challenges 3.1 Security by Design 3.2 Awareness Initiatives 3.3 Standardized Data Governance Policies 4 Conclusion 1 The Case for Maintaining IoT Data Governance The growing use of IoT devices across various industries has caused a surge in data volume. Most of these devices store sensitive company data, which plays a crucial role in business operations but can have dire consequences if it falls into the wrong hands. Thus, companies need to understand what is IoT governance and its implementation to safeguard sensitive data from unauthorized access and malicious exploitation. 2 Top Challenges in IoT Data Governance for Businesses 2.1 Lack of Organizational Commitment Organizational commitment is essential for effective IoT data governance. There needs to be a clear purpose and goals regarding data governance that are communicated to all stakeholders. Not focusing on organizational commitment can result in a lack of alignment between the organization's goals and the IoT data governance strategy, as well as uncertainty about ownership and accountability for data governance across the organization. 2.2 Data Privacy Concerns Ensuring data privacy is a significant concern when implementing IoT data management to maintain IoT data governance security. With the vast amount of data generated by IoT devices, there is an increased risk of personal and sensitive data being compromised. Therefore, it is crucial to identify potential vulnerabilities, mitigate the risk of data privacy breaches in IoT environments, and anonymize user data for consumer devices. 2.3 Lack of Endpoint Security for IoT Devices IoT devices are often designed with limited processing power and memory, and as such, many connected devices do not have built-in security features. This makes them attractive targets for hackers seeking to access confidential data or disrupt operations. Without proper endpoint security measures, IoT devices can be compromised, leading to data breaches, network downtime, and other security incidents that can compromise the entire system's integrity. 2.4 Issues with IoT Device Authentication When IoT devices are designed without proper authentication mechanisms, it can be challenging to verify their identities. This results in possible unauthorized access, data breaches, and other security incidents. To supplement IoT data management practices, companies must implement secure authentication protocols specifically designed for IoT environments, such as device certificates, digital signatures, and multi-factor authentication, to maintain IoT data governance. 2.5 Increasing Volume of Unstructured Data IoT devices generate vast amounts of data in various formats and structures, including text, images, audio, and video, which can be difficult to process, manage, and analyze. This data is often stored in different locations and formats, making it challenging to ensure quality and consistency. Moreover, this flood of unstructured data can contain sensitive information that must be protected to comply with regulations and standards. For effective IoT data governance, it is necessary to implement data classification, metadata management, and data quality management to make sense of unstructured data. 2.6 Unethical Use of IoT Data IoT devices collect data that can be sensitive and personal, and misuse can lead to various negative consequences. Data from IoT devices can be used to develop insights, but it must be handled carefully to avoid privacy violations, discrimination, or other negative consequences. Ensuring data ethics requires organizations to consider the potential impacts of their data collection and use practices on various stakeholders. This involves addressing issues such as data privacy, data ownership, transparency, and bias in IoT data analytics. 2.7 Inadequate Data Governance Protocols Without proper data governance protocols, IoT data may be inaccurate, incomplete, or difficult to access or analyze, reducing the effectiveness of IoT systems and limiting the potential benefits they can provide. Additionally, inadequate data governance protocols can lead to security and privacy vulnerabilities, potentially exposing sensitive data to unauthorized access or theft. This can result in legal and regulatory penalties, reputational damage, and a loss of customer trust. 3 Addressing IoT Data Governance Challenges 3.1 Security by Design This approach involves integrating security and governance considerations into the design and development of IoT systems from the outset. This helps minimize vulnerabilities, prevent breaches that may compromise the confidentiality, integrity, and availability of IoT data, and help maintain IoT data governance. In addition, by prioritizing security in the design phase, organizations can implement security controls and features tailored to their IoT systems' specific needs, which can help prevent unauthorized access, manipulation, or theft of IoT data. 3.2 Awareness Initiatives IoT data governance challenges can arise due to an improperly trained workforce that may not recognize the purpose and benefits of data governance practices. Awareness initiatives can help organizations develop a culture of security and privacy. These initiatives can educate employees and stakeholders about the risks and best practices associated with IoT data governance, including the importance of data security, privacy, and ethical considerations. By raising awareness of these issues, organizations can promote a culture of responsible data management, encourage stakeholders to adhere to data governance policies and procedures, and reduce the risk of human error or intentional misconduct that could compromise IoT data. 3.3 Standardized Data Governance Policies Collaboration between local, regional, and federal governments and businesses is essential to establishing frameworks for implementing IoT and related technologies within their jurisdictions. Cooperation between governments and enterprises is crucial for implementing a standardized IoT data governance policy. This will protect end-users by mandating basic standards in procurement processes and creating regulations and guidelines that promote responsible data governance. 4 IoT Data Governance: Future Outlook Data is one of the most valuable resources for organizations today, and addressing the problem of IoT data governance will ensure that the IoT of enterprises is used effectively and responsibly. Straits Research reported that the worldwide data governance market had a worth of USD 2.1 billion in 2021 and is projected to reach an estimated USD 11.68 billion by 2030. IoT devices are a key driving factor behind the growth of the data governance market, and as the amount of data generated and the number of devices grows, so will the complexity of data governance. By maintaining strong data governance policies and tracking changes in policies and best practices, businesses can ensure compliance and maintain trust in the long run.

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Smart Home Technologies: Zigbee, Z-Wave, Thread, and Dotdot

Article | July 15, 2022

If you own smart home products like SmartThings or Nest, you may be familiar with some of the technologies behind them. Network protocols like Zigbee and Z-Wave dominate the industry, while Thread, a younger network standard, is gaining headway as a strong contender in the battle for market share. Although this may seem like your typical rivalry between industry leaders, the competitive landscape is more complicated than selecting one over another.

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12 Industrial IoT Companies You Should Know

Article | February 10, 2020

As the industrial IoT market continues to expand at rapid rates, companies across the world are reaping the benefits. Utilizing this growing network of tools and systems, businesses have been able to prevent costly downtime, decrease product development costs, enhance customer engagement and satisfaction and acquire and implement intelligent data for strategic planning purposes.The potential benefits are seemingly endless, and the list of organizations that are embracing this industrial revolution is continuing to grow, so let’s highlight some of the main IIoT companies you need to know for a number of the most common IIoT use cases.

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Laird Connectivity Brings Device Management Capabilities to Their Portfolio of IoT Devices with Canvas™ Device Manager

PRNewswire | May 30, 2023

Laird Connectivity, a global leader in wireless technology, announced a major leap forward for effective management for their portfolio of IoT devices. Canvas™ Device Manager dramatically simplifies the process of configuring and managing IoT products in the field throughout the full product lifecycle – a previously frustrating task for organizations needing to manage the growing number and variety of IoT devices that are critical for their operations. Organizations using Laird Connectivity's Bluetooth Low Energy (LE) connected IoT devices in the field now have the option of leveraging Canvas Device Manager, which provides instant wireless access to the entire fleet via Bluetooth LE gateways. Canvas brings extensive automation to the management of IoT device deployments by simplifying workflows for wireless/OTA configuration and maintenance. Organizations can easily set up devices, monitor connectivity, measure performance, and keep software up-to-date across their entire IoT device network. "Canvas Device Manager is a game-changer for businesses looking to streamline their device management processes," said Senthooran Ragavan, Senior Product Manager, Laird Connectivity. "We understand the challenges that businesses face when managing a large number of devices in the field and we've developed this platform with our partner EdgeIQ to simplify the process and save valuable time and resources." Managing IoT devices at scale can be a daunting task requiring a significant amount of labor that keeps team members from higher-priority projects. The complexity of that process can also result in devices that are not performing the way they need to and are not as secure as they should be. Canvas Device Manager, deployed in conjunction with EdgeIQ, simplifies this process by providing a centralized platform for managing all devices, including remote management capabilities as well as real-time monitoring and reporting on device status. This ensures that any issues can be identified and resolved quickly. Key features of Canvas Device Manager include Fleet management of profiles, versions, and status of all connected devices Zero-touch configuration and provisioning to quickly deploy complex wireless systems Remote monitoring of wellness reports against supported Laird Connectivity gateways and sensors Software updates sent to a fleet of Laird Connectivity IoT devices with any software or firmware at the edge Ability to connect directly to deployed Bluetooth LE devices through a Bluetooth LE gateway, enabling unique OTA firmware updates and configuration for each device To accelerate time to market, Canvas Device Manager is already supported on multiple IoT device products from Laird Connectivity, including the Sentrius ™ family's MG100 gateway with LTE-M/NB-IoT & Bluetooth, the BT610 I/O sensor with Bluetooth 5, and IG60-BL654 with Bluetooth 5 & optional LTE CAT-1. About Laird Connectivity Laird Connectivity simplifies wireless connectivity with market-leading RF modules, system-on-modules, internal antennas, IoT devices, and custom wireless solutions. Our products are trusted by companies around the world for their wireless performance and reliability. With best-in-class support and comprehensive product development services, we reduce your risk and improve your time-to-market. When you need unmatched wireless performance to connect your applications with security and confidence, Laird Connectivity Delivers – No Matter What.

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Syniverse Recognized as Leading 5G Roaming Vendor in Latest Kaleido Intelligence Study

Businesswire | May 29, 2023

Syniverse, "the world's most connected company,"® has been recognized by consulting and market research firm Kaleido Intelligence as one of the best vendors to enable 5G roaming for operators in its "5G Roaming: Consumer and IoT Strategies 2023" report. The report analyzes the 5G roaming landscape, assessing key trends, developments, and requirements. It also offers feedback from leading operator groups about 5G opportunities and revenue drivers, technical specifications for mobile network operators (MNOs), and an outlook on the market. "Being named as one of Kaleido Intelligence's top vendors for 5G roaming solutions once again demonstrates Syniverse's unparalleled track record of successfully guiding operators through network transformations, which we have done for more than 30 years," remarked Andrew Davies, Chief Executive Officer, Syniverse. "As Kaleido's report details, more than 85% of participating MNOs plan to launch 5G standalone roaming by the end of 2025. We will continue providing best-in-class service as they build out their next-generation networks as well as facilitating uninterrupted service for their subscribers, regardless of where they may travel." Kaleido Intelligence estimates that consumer mobile and Internet of Things (IoT) devices will exceed 5,000 petabytes of 5G data roaming traffic globally by 2028, when approximately 100 million machine-to-machine (M2M) connections will roam over 5G networks. That data represents 78% average annual growth, and it will account for more than 70% of worldwide data roaming traffic and lead to nearly $100 billion in roaming revenues for mobile operators over the next five years. Syniverse was one of six vendors spotlighted in the report, which singled out the company's 5G Signaling Controller as a leading 5G technology evolution. 5G Signaling Controller is an HTTP2-based solution designed specifically to efficiently enable roaming for 5G standalone networks and deliver 5G experiences and market opportunities. The report also highlighted the value of Syniverse's voice-over-LTE (VoLTE) roaming solutions, which can be deployed by MNOs with their roaming partners to provide a seamless experience for subscribers. The most recent and first-of-its-kind capability, Evolved Mobility for Outbound Roaming, is a cloud-based feature introduced in February to complement Evolved Mobility for Inbound Roaming. Together, the products allow MNOs retiring their 3G networks to serve roamers with VoLTE-enabled devices to and from roaming partners who have not yet launched VoLTE. About Syniverse Syniverse is the world’s most connected company. We seamlessly connect the world’s networks, devices, and people so the world can unlock the full power of communications. Our secure, global technology powers the world’s leading carriers, top Forbes Global 2000 companies, and billions of people, devices, and transactions every day. Our engagement platform delivers better, smarter experiences that strengthen relationships between businesses, customers, and employees.

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Sequans and Geotab Extend Relationship with Adoption of Calliope 2 Cat 1bis Technology

PRnewswire | May 26, 2023

Sequans Communications S.A.("Sequans"), a leader in 5G/4G cellular IoT chips and modules today announced that Geotab® Inc. ("Geotab"), a global leader in connected transportation solutions, has selected Sequans' Calliope 2 Cat 1bis technology as a part of its product strategy. "When selecting suppliers, our objective is to understand what technology will best meet the needs of our customers today and in the future," said Anthony Middleton, Vice President, Hardware Programs and Technology, Geotab. "We have selected Sequans as one of our technology suppliers as the Calliope 2 chipset supports many advanced features such as Cat1bis and iSIM that will ultimately help Geotab meet its future objectives, as well as support the company's commitment to the evolution of cellular IoT." "Geotab is consistently ahead of the curve on product development, and we are eager to be a part of the company's strategy," said Louis Chuang, EVP, Massive IoT, Sequans. "We have been a supplier to Geotab for many years now, recording great success, and we look forward to continuing this success with our latest and most advanced Calliope 2 technology." The Sequans' Calliope 2 Cat 1bis technology selected by Geotab offers optimized connectivity and provides significant improvements in performance and power consumption, while providing seamless migration. The Calliope 2 GC02S1 modules comprise Sequans' Calliope 2 platform and all other elements for a complete modem system, including an LTE-optimized transceiver, RF front end, and key interfaces in a compact, cost-effective form factor that requires no external components and includes an integrated EAL5+ secure enclave, enabling highly secure, integrated eSIM/iSIM. About Sequans Sequans Communications S.A. is a leading developer and supplier of cellular IoT connectivity solutions, providing chips and modules for 5G/4G massive and broadband IoT. For 5G/4G massive IoT applications, Sequans provides a comprehensive product portfolio based on its flagship Monarch LTE-M/NB-IoT and Calliope Cat 1 chip platforms, featuring industry-leading low power consumption, a large set of integrated functionalities, and global deployment capability. For 5G/4G broadband IoT applications, Sequans offers a product portfolio based on its Cassiopeia Cat 4/Cat 6 4G and high-end Taurus 5G chip platforms, optimized for low-cost residential, enterprise, and industrial applications. Founded in 2003, Sequans is based in Paris, France with additional offices in the United States, United Kingdom, Israel, Hong Kong, Singapore, Finland, Taiwan, South Korea, and China. About Geotab Geotab is a global leader in connected transportation solutions. We provide telematics — vehicle and asset tracking — solutions to over forty thousand customers in 150 countries. For more than 20 years, we have invested in ground-breaking data research and innovation to enable partners and customers, including Fortune 500 and public sector organizations, to transform their fleets and operations. We connect to over 3.2 million vehicles and process more than 55 billion data points a day so that customers can make better decisions, increase productivity, have safer fleets, and achieve their sustainability goals. Geotab's open platform and Marketplace, offers hundreds of third-party solution options. Backed by a team of industry leading data scientists and AI experts, Geotab is unlocking the power of data to understand real-time and predictive analytics — solving for today's challenges and tomorrow's world. Geotab and the Geotab logo are trademarks or registered trademarks of Geotab Inc. and/or its affiliates.

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Laird Connectivity Brings Device Management Capabilities to Their Portfolio of IoT Devices with Canvas™ Device Manager

PRNewswire | May 30, 2023

Laird Connectivity, a global leader in wireless technology, announced a major leap forward for effective management for their portfolio of IoT devices. Canvas™ Device Manager dramatically simplifies the process of configuring and managing IoT products in the field throughout the full product lifecycle – a previously frustrating task for organizations needing to manage the growing number and variety of IoT devices that are critical for their operations. Organizations using Laird Connectivity's Bluetooth Low Energy (LE) connected IoT devices in the field now have the option of leveraging Canvas Device Manager, which provides instant wireless access to the entire fleet via Bluetooth LE gateways. Canvas brings extensive automation to the management of IoT device deployments by simplifying workflows for wireless/OTA configuration and maintenance. Organizations can easily set up devices, monitor connectivity, measure performance, and keep software up-to-date across their entire IoT device network. "Canvas Device Manager is a game-changer for businesses looking to streamline their device management processes," said Senthooran Ragavan, Senior Product Manager, Laird Connectivity. "We understand the challenges that businesses face when managing a large number of devices in the field and we've developed this platform with our partner EdgeIQ to simplify the process and save valuable time and resources." Managing IoT devices at scale can be a daunting task requiring a significant amount of labor that keeps team members from higher-priority projects. The complexity of that process can also result in devices that are not performing the way they need to and are not as secure as they should be. Canvas Device Manager, deployed in conjunction with EdgeIQ, simplifies this process by providing a centralized platform for managing all devices, including remote management capabilities as well as real-time monitoring and reporting on device status. This ensures that any issues can be identified and resolved quickly. Key features of Canvas Device Manager include Fleet management of profiles, versions, and status of all connected devices Zero-touch configuration and provisioning to quickly deploy complex wireless systems Remote monitoring of wellness reports against supported Laird Connectivity gateways and sensors Software updates sent to a fleet of Laird Connectivity IoT devices with any software or firmware at the edge Ability to connect directly to deployed Bluetooth LE devices through a Bluetooth LE gateway, enabling unique OTA firmware updates and configuration for each device To accelerate time to market, Canvas Device Manager is already supported on multiple IoT device products from Laird Connectivity, including the Sentrius ™ family's MG100 gateway with LTE-M/NB-IoT & Bluetooth, the BT610 I/O sensor with Bluetooth 5, and IG60-BL654 with Bluetooth 5 & optional LTE CAT-1. About Laird Connectivity Laird Connectivity simplifies wireless connectivity with market-leading RF modules, system-on-modules, internal antennas, IoT devices, and custom wireless solutions. Our products are trusted by companies around the world for their wireless performance and reliability. With best-in-class support and comprehensive product development services, we reduce your risk and improve your time-to-market. When you need unmatched wireless performance to connect your applications with security and confidence, Laird Connectivity Delivers – No Matter What.

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INDUSTRIAL IOT

Syniverse Recognized as Leading 5G Roaming Vendor in Latest Kaleido Intelligence Study

Businesswire | May 29, 2023

Syniverse, "the world's most connected company,"® has been recognized by consulting and market research firm Kaleido Intelligence as one of the best vendors to enable 5G roaming for operators in its "5G Roaming: Consumer and IoT Strategies 2023" report. The report analyzes the 5G roaming landscape, assessing key trends, developments, and requirements. It also offers feedback from leading operator groups about 5G opportunities and revenue drivers, technical specifications for mobile network operators (MNOs), and an outlook on the market. "Being named as one of Kaleido Intelligence's top vendors for 5G roaming solutions once again demonstrates Syniverse's unparalleled track record of successfully guiding operators through network transformations, which we have done for more than 30 years," remarked Andrew Davies, Chief Executive Officer, Syniverse. "As Kaleido's report details, more than 85% of participating MNOs plan to launch 5G standalone roaming by the end of 2025. We will continue providing best-in-class service as they build out their next-generation networks as well as facilitating uninterrupted service for their subscribers, regardless of where they may travel." Kaleido Intelligence estimates that consumer mobile and Internet of Things (IoT) devices will exceed 5,000 petabytes of 5G data roaming traffic globally by 2028, when approximately 100 million machine-to-machine (M2M) connections will roam over 5G networks. That data represents 78% average annual growth, and it will account for more than 70% of worldwide data roaming traffic and lead to nearly $100 billion in roaming revenues for mobile operators over the next five years. Syniverse was one of six vendors spotlighted in the report, which singled out the company's 5G Signaling Controller as a leading 5G technology evolution. 5G Signaling Controller is an HTTP2-based solution designed specifically to efficiently enable roaming for 5G standalone networks and deliver 5G experiences and market opportunities. The report also highlighted the value of Syniverse's voice-over-LTE (VoLTE) roaming solutions, which can be deployed by MNOs with their roaming partners to provide a seamless experience for subscribers. The most recent and first-of-its-kind capability, Evolved Mobility for Outbound Roaming, is a cloud-based feature introduced in February to complement Evolved Mobility for Inbound Roaming. Together, the products allow MNOs retiring their 3G networks to serve roamers with VoLTE-enabled devices to and from roaming partners who have not yet launched VoLTE. About Syniverse Syniverse is the world’s most connected company. We seamlessly connect the world’s networks, devices, and people so the world can unlock the full power of communications. Our secure, global technology powers the world’s leading carriers, top Forbes Global 2000 companies, and billions of people, devices, and transactions every day. Our engagement platform delivers better, smarter experiences that strengthen relationships between businesses, customers, and employees.

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INDUSTRIAL IOT

Sequans and Geotab Extend Relationship with Adoption of Calliope 2 Cat 1bis Technology

PRnewswire | May 26, 2023

Sequans Communications S.A.("Sequans"), a leader in 5G/4G cellular IoT chips and modules today announced that Geotab® Inc. ("Geotab"), a global leader in connected transportation solutions, has selected Sequans' Calliope 2 Cat 1bis technology as a part of its product strategy. "When selecting suppliers, our objective is to understand what technology will best meet the needs of our customers today and in the future," said Anthony Middleton, Vice President, Hardware Programs and Technology, Geotab. "We have selected Sequans as one of our technology suppliers as the Calliope 2 chipset supports many advanced features such as Cat1bis and iSIM that will ultimately help Geotab meet its future objectives, as well as support the company's commitment to the evolution of cellular IoT." "Geotab is consistently ahead of the curve on product development, and we are eager to be a part of the company's strategy," said Louis Chuang, EVP, Massive IoT, Sequans. "We have been a supplier to Geotab for many years now, recording great success, and we look forward to continuing this success with our latest and most advanced Calliope 2 technology." The Sequans' Calliope 2 Cat 1bis technology selected by Geotab offers optimized connectivity and provides significant improvements in performance and power consumption, while providing seamless migration. The Calliope 2 GC02S1 modules comprise Sequans' Calliope 2 platform and all other elements for a complete modem system, including an LTE-optimized transceiver, RF front end, and key interfaces in a compact, cost-effective form factor that requires no external components and includes an integrated EAL5+ secure enclave, enabling highly secure, integrated eSIM/iSIM. About Sequans Sequans Communications S.A. is a leading developer and supplier of cellular IoT connectivity solutions, providing chips and modules for 5G/4G massive and broadband IoT. For 5G/4G massive IoT applications, Sequans provides a comprehensive product portfolio based on its flagship Monarch LTE-M/NB-IoT and Calliope Cat 1 chip platforms, featuring industry-leading low power consumption, a large set of integrated functionalities, and global deployment capability. For 5G/4G broadband IoT applications, Sequans offers a product portfolio based on its Cassiopeia Cat 4/Cat 6 4G and high-end Taurus 5G chip platforms, optimized for low-cost residential, enterprise, and industrial applications. Founded in 2003, Sequans is based in Paris, France with additional offices in the United States, United Kingdom, Israel, Hong Kong, Singapore, Finland, Taiwan, South Korea, and China. About Geotab Geotab is a global leader in connected transportation solutions. We provide telematics — vehicle and asset tracking — solutions to over forty thousand customers in 150 countries. For more than 20 years, we have invested in ground-breaking data research and innovation to enable partners and customers, including Fortune 500 and public sector organizations, to transform their fleets and operations. We connect to over 3.2 million vehicles and process more than 55 billion data points a day so that customers can make better decisions, increase productivity, have safer fleets, and achieve their sustainability goals. Geotab's open platform and Marketplace, offers hundreds of third-party solution options. Backed by a team of industry leading data scientists and AI experts, Geotab is unlocking the power of data to understand real-time and predictive analytics — solving for today's challenges and tomorrow's world. Geotab and the Geotab logo are trademarks or registered trademarks of Geotab Inc. and/or its affiliates.

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