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Yahoo
5 minutes ago
- Yahoo
Septentrio Teams up with Gateworks to Launch Precision GNSS M.2 Card for Mission-Critical Edge Applications
New GW16160 combines Septentrio's mosaic-X5 GNSS receiver with Gateworks SBC integration for UAVs, robotics and industrial systems. SAN LUIS OBISPO, Calif., Aug. 12, 2025 /PRNewswire/ -- Septentrio, part of Hexagon, a leader in high-precision GNSS positioning solutions, is collaborating with Gateworks Corporation, a US-based manufacturer of high-quality Single Board Computers (SBCs). Gateworks is now bringing its first Septentrio-based product to market, the GW16160, a new M.2 card which provides reliable high-accuracy positioning powered by the mosaic-X5 GNSS module. Why This Redefines Edge Navigation The mosaic-X5 module is a multi-frequency, multi-constellation receiver renowned for its high level of resilience to GNSS jamming and spoofing thanks to the built-in AIM+ (Advanced Interference Mitigation) technology. It also features a suite of GNSS+ algorithms that ensure robust positioning of rugged systems operating in challenging industrial environments. The GW16160 card with mosaic-X5 is a high-quality positioning solution for edge devices, including autonomous robots, UAVs and industrial mission-critical applications. High-accuracy GNSS systems have traditionally required large systems, costly certification and complicated integration. The GW16160 removes these barriers by offering: Survey-grade positioning in a compact M.2 form factor 448-channel tracking across all major GNSS constellations RTK accuracy down to 0.6 cm with support for PPP, SSR and SBAS Reliable operation in high-vibration and interference-prone environments Secure browser-based tools for diagnostics, spectrum analysis, and monitoring For product specifications and documentation, visit Gateworks' GW16160 Product Page. "This collaboration brings Septentrio's industry-leading positioning technology to rugged embedded systems," said Kelly Peralta, Vice President of Sales at Gateworks Corporation. "Combined with Gateworks SBCs, the GW16160 enables faster deployment for autonomous and kinematic systems without compromising positioning accuracy or resilience." "We are excited to collaborate with Gateworks, an American-based partner, with a solid track record of developing and distributing high-quality electronics," commented Gustavo Lopez, Market Portfolio Manager at Septentrio. "The new M.2 card strengthens the mosaic ecosystem, optimizing space and design efficiency of industrial and mission-critical edge applications which require high-performance positioning." Designed and manufactured in the USA, the GW16160 allows engineers to integrate high-accuracy GNSS into edge systems without bulky external receivers or complex RF design. This ultra-low power card features an M.2 A/E-Key interface with USB 2.0 connectivity for plug-and-play integration. Together, Gateworks and Septentrio are empowering developers to deploy ultra-precise, interference-resistant positioning in edge systems without compromising size, power or reliability. For more information about the GW16160 M.2 card, please contact Gateworks. For more information about mosaic-X5, please contact Septentrio, part of Hexagon. Media Contact:Hailey Terrones(760) 805-7500hterrones@ About Gateworks CorporationGateworks designs and manufactures rugged, industrial-grade single board computers (SBCs) and wireless solutions for embedded edge applications. Based in San Luis Obispo, California, Gateworks products are built on NXP® Semiconductors Arm®-based processors and supported by a strong ecosystem of technology partners like Septentrio, u-blox, Telit, Silex and Morse Micro. Designed and manufactured in the USA, Gateworks SBCs are trusted by global leaders in smart transportation, energy, industrial automation and autonomous systems. Learn more at View original content to download multimedia: SOURCE Gateworks Corporation Sign in to access your portfolio
Gizmodo
6 minutes ago
- Gizmodo
Fitbit Versa 4 Fitness Smartwatch Restocked as a Flash Offer, Feels Like Black Friday in August
Keeping fit is a lot of effort, and while it may well be rewarding, a lot of people hit a plateau and then really struggle to push through that. A large part of that comes down to the fact that your improvements aren't always easy to see, whether in the mirror or on the scales. Better health tracking can help though, and that's where a great smartwatch can really shine. If you're looking for a really good option, then you'll want to go ahead and get this Fitbit Versa 4 Fitness Smartwatch while it's 25% off. That means it's down to $150, which is an excellent price, and a small amount to pay for peace of mind when it comes to your training. See at Amazon Smartwatches have been a real game-changer when it comes to fitness. You'd normally have to pay good money, or learn a lot, to be able to accurately track some of the things fitness smartwatches can do with ease. It means that getting one is an investment of sorts, but one that's often a lot cheaper than getting all of the things you'd need to cover all of your bases otherwise. The Fitbit Versa 4 Fitness Smartwatch, first of all, is a lot smaller than some other smartwatches. It means that it just doesn't take up as much room on your wrist, which can be nice for those who don't want clunky accessories. Outside of the fitness stuff, it has a GPS functionality to allow you to keep an eye on where you are and where you're going, which is lovely if you're someone getting into hiking or forest trails. In terms of your health, it can track not only all of your heart rate and sleep stuff, but actually has a bunch of modes dedicated to different exercises as well, so you can get more accurate results. It even offers advice on your sleep, to help you rest a bit better, and it makes it easy to see when you should be working harder or taking a break. It even works for all the usual smartwatch stuff like notifications, paying for things with Google Wallet, and it comes with a six-month Premium subscription for the best possible results. That's a lot of great stuff for $200, but that's not what you're going to be paying. Instead, while this limited-time deal is on, you can get it for $150. We recommend acting quickly on this one, because we're not expecting it to last for long. See at Amazon
Forbes
7 minutes ago
- Forbes
Microsegmentation As A Strategic Approach To Healthcare Security
James Winebrenner, CEO, Elisity. The healthcare industry faces an unprecedented cybersecurity challenge. With the digitization of patient records, proliferation of connected medical devices and increasing reliance on interconnected systems, healthcare organizations have become prime targets for sophisticated cyber threats. According to the 2023 FBI "Internet Crime Report," the healthcare sector experienced more ransomware attacks than any other critical infrastructure sector in 2023, with the HIPAA Journal reporting over 93 million healthcare records compromised in business associates' data breaches that year alone. Traditional perimeter-based security measures were designed for a different era—one where threats remained largely outside organizational boundaries. Today's reality is starkly different. Once attackers breach a network, they can move laterally across systems and devices with alarming ease, compromising critical systems and sensitive data across the organization. Rethinking Healthcare Security Architecture Today's threat landscape demands a fundamentally different approach to network security. As healthcare boards and security leaders assess their risk management strategies, microsegmentation has emerged as a capability for modern security architectures that goes beyond prevention to focus on containment and resilience. Microsegmentation divides networks into secure zones, enabling organizations to isolate users, workloads and devices from one another and secure them individually. By establishing granular security controls around specific applications, data assets, devices and services, microsegmentation can effectively limit an attacker's ability to move laterally through the network—even after they've gained initial access. The concept itself isn't new, but its implementation has evolved significantly. While traditional segmentation relied primarily on firewalls and VLANs to create broad network divisions, modern microsegmentation leverages identity-based policies that can follow workloads regardless of their location, enabling true zero-trust security. The Value Of Microsegmentation In Healthcare Organizations Healthcare organizations face unique security challenges that make microsegmentation particularly valuable. First, healthcare environments contain an extraordinary diversity of devices, from medical equipment like MRI machines and infusion pumps to IoT devices controlling building systems like HVAC. A 2023 joint research effort by Securin, Health Information Sharing and Analysis Center (Health-ISAC) and Finite State identified nearly 1,000 vulnerabilities across 966 tested medical devices, representing a dramatic increase in exploitable vulnerabilities within healthcare technology. This exposure includes hospital information systems, imaging devices and clinical devices. Microsegmentation helps protect these systems even when they can't be patched. Second, healthcare operations require near-perfect uptime. When a ransomware infection spreads, the impact extends beyond data—it affects patient care. By containing threats to isolated segments, microsegmentation helps maintain continuity of essential healthcare services even during active security incidents. Third, healthcare networks typically contain numerous legacy systems with outdated operating systems that can't be readily replaced or patched. Microsegmentation provides a protection layer for these vulnerable yet essential systems. Implementation Strategies For Healthcare Organizations Despite the benefits, implementing microsegmentation in complex healthcare environments presents challenges. A successful approach requires: • Identity-Centric Implementation: Modern microsegmentation should be based on workload identity rather than network location or simple IP addresses, enabling consistent security across hybrid environments. This approach decouples access policies from underlying network infrastructure, making them more adaptable to changing healthcare delivery models. • Gradual, Risk-Based Deployment: Begin with the most critical assets and focus on the greatest risks. This might include systems containing sensitive patient data, life-critical medical devices or applications essential for clinical operations. • Clearly Defined Roles And Responsibilities: Microsegmentation projects touch multiple domains—networking, security, application teams and clinical departments. Creating a RACI (responsible, accountable, consulted and informed) matrix that clearly defines who does what across these domains is essential for success. • Balancing Security With The Clinical Workflow: Security controls must be carefully designed to protect systems without impeding essential clinical workflows. This requires close collaboration between security teams and healthcare practitioners. Overcoming Implementation Hurdles Many healthcare organizations have found microsegmentation challenging to implement using traditional approaches. The complexity of healthcare networks, limited cybersecurity resources and concerns about disrupting clinical operations have been major barriers. However, advancements in technology have dramatically simplified microsegmentation implementation. Modern solutions can be deployed without requiring new hardware, complex network reconfigurations or disruptive changes to existing systems. A Strategic Imperative For Healthcare Leaders Many healthcare boards and executives view microsegmentation as a strategic imperative rather than merely a technical control. It enables a fundamental shift from a breach prevention mindset to one focused on risk management and operational resilience. As healthcare delivery becomes increasingly digital and interconnected, the question isn't whether your organization will face a cyber threat but how effectively you'll contain and respond to it. Microsegmentation provides a foundation for this resilience, enabling you to protect patient data, maintain compliance and limit the impact of security incidents while continuing essential healthcare services. The time to act is now. Healthcare leaders must move beyond traditional security approaches to embrace a more comprehensive risk management strategy that safeguards the future of healthcare delivery. 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