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Automated Self-Service Kiosk Simplifies Returns Process

A new rapid, self-service returns kiosk will be on display at this year’s NRF show. Developed by Kiosk Information Systems alongside software and logistics partner Inmar Post Purchase Solutions, the Automated Returns Kiosk (ARK) completes the returns process in under two minutes. Kiosk says the ARK is a “game changer” for the retail industry. As businesses face ongoing pressures from high demand levels and labor shortages, the logistics surrounding e-commerce returns are becoming increasingly difficult to navigate. A new rapid, self-service returns kiosk will be on display at this year’s NRF show. Developed by Kiosk Information Systems alongside software and logistics partner Inmar Post Purchase Solutions, the Automated Returns Kiosk (ARK) completes the returns process in under two minutes. Kiosk says the ARK is a “game changer” for the retail industry. As businesses face ongoing pressures from high demand levels and labor shortages, the logistics surrounding e-commerce returns are b

The Future of 5G and Smart Farming

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  The early stages of 5G have focused on enabling high-bandwidth connectivity. Before 5G infrastructure becomes more ubiquitous, centralized farms will be the most practical use cases. A large corporate farming operation might build a private 5G network to enable high-bandwidth use cases (e.g., crop monitoring using drones) and aggregation of data from thousands of transactional or triggered IoT sensors. For now, 5G will be most leveraged when a farming operation utilizes large amounts of data from disparate sources. On an industrial chicken farm, data from thermostats and feeding machines come to a central connection point. Each of these thousands of sensors generates small data amounts for too little cost or complexity for a broadband-grade 5G data pipe. When aggregated in properly dimensioned clusters, the resulting bandwidth can align with 5G mobile broadband bandwidth. 5G is an excellent solution to aggregate and backhaul this information. We can expect 5G  3GPP Release (Rel) 17  

Artificial Intelligence in Next Generation Networking Markets 2022-2027

  Artificial Intelligence in Next Generation Networking Markets 2022-2027 by Infrastructure, Network Type, IoT Solution, Segment (Consumer, Enterprise, Industrial, and Government), and Industry Vertical - ResearchAndMarkets.com In addition, the impact of 5G networks, IoT technology and systems, and network analytics functions are also analyzed. The report assesses technologies, products, and solutions from key solution providers, identifying key companies in each segment of the competitive landscape. This includes companies focused on AI specifically and related areas such as intent-based networks and experiential networking. The report also provides forecasts for the AI-driven networking market based on major market segments and subsegments, AI technology type, deployment type, network type, industry vertical, and region. The report provides qualitative and quantitative analysis for the AI next generation networking market by infrastructure, network type, IoT solution, segment (consum

SOFTWARE DEFINED NETWORKS (SDN)

Software-defined networking (SDN) is an architecture designed to make a network more flexible and easier to manage. SDN centralizes management by abstracting the control plane from the data forwarding function in the discrete networking devices. SDN Elements An SDN architecture delivers a centralized, programmable network and consists of the following: A controller, the core element of an SDN architecture, that enables centralized management and control, automation, and policy enforcement across physical and virtual network environments Southbound APIs that relay information between the controller and the individual network devices (such as switches, access points, routers, and firewalls) Northbound APIs that relay information between the controller and the applications and policy engines, to which an SDN looks like a single logical network device SDN Features Simplify Operations Achieve Faster time to market Build Programmable Networks  Source : https://www.cisco.com/c/en/us/solutions

Medical electronics applications in engineering

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  Medical  electronics applications in engineering  includes the following devices. Blood gas analyzer Medical glucose Monitor Electronic Brain Wave Machine Medical heart monitors Infrared and Digital Thermometers Defibrillator for medical electronics Sphygmomanometer MRI for medical electronics Fetal Monitor Stethoscope Blood gas analyzer The best application of electronics in the medical field is gas analyzer. It is used to calculate the pressure of the chemical elements like carbon monoxide, nitrogen, oxygen in blood. By analyzing results we able to understand if any disorder in blood, particularly after we feel sick quite 2days. By exploiting results we are able to observe if any disorder when we feel sickness within the basic level solely within the home. It is often enforced as medical  electronics projects . Blood Gas analyzer Blood collected from the person is introduced within the chemical device strip that has particle selective electrodes, by exploitation by device amplifier
Dear Students,                          I have posted link of the electronic gazettes. You can find the recent products for home appliances and domestic applications. You can gather more knowledge on our electronic innovations and it will definitely make you to do some innovative models related to social needs.   Link 1: https://www.amazon.in/Latest-Electronic-Gadgets/s?k=Latest+Electronic+Gadgets Link 2: https://geekygadgets.in/latest-electronic-gadgets/ Link 3: https://m.timesofindia.com/most-searched-products/electronics/miscellaneous/most-sold-electronic-products-on-toi-most-search-products-from-earphones-to-microwave-ovens-and-more/articleshow/80022070.cms Thanks Dr. S. Gopinath

Telemedicine

  COVID-19 has greatly accelerated the use of telehealth resources. In April of 2020, 43.5% of Medicare primary care visits utilized   telehealth methods   rather than in-person visits. One of the major benefits of telehealth over in-person alternatives is that it reduces contact between patients, healthcare workers, and other patients. Wearable devices enable healthcare workers to have real-time information on patient data while they remain at home. More importantly,  telehealth’s growth  appears likely to continue even after the pandemic is over. 71% of patients in the United States considered telemedicine at the beginning of the pandemic, and 50% had already utilized virtual appointments. With telehealth already rising in popularity in the previous year, the pandemic was a major boost to the industry’s development. This boom in telehealth seems likely to break $185.6 billion by 2026. The most important aspect of telehealth’s success is patient adoption. Since most patients are comfo