A Body Area Network is a Wireless Network of wearable computing devices. With the advancement of microelectronics, communication and medical sciences, a Body Area Network, with the help of bio-signal sensors can collect relevant vital medical parameters in real-time and transfer it into a network for proactive healthcare and emergency mitigation services. In this paper, an attempt has been made to bring out the challenges for the development of a Satellite based Body Area Network.
Archive for category rfid
Hidden GMO Enzyme in Food
Aug 17
Wireless, GMO Enzymes, Crispr – What Do they Have in Common?
Publisher: IEEE Lei Kong; Li Huang; Lin Lin; Zhimin Zheng; Yu Li; Qixing Wang Abstract: The Internet of Bio-Nanothings (IoBNT) is one of the potential application scenarios in the 6th generation (6G) mobile network, which envisions the interaction between biological cells or nanodevices and the Internet. Molecular communication (MC) may offer an appropriate communication method […]
An investigation into the layers that most do not see or understand, a peak behind the curtain of wireless and the cloud. A report connecting the powers that be, with one objective, to connect people to the internet and currency.
09 AUG 2025 – AARON MOK As generative AI systems advance, so too does their appetite for energy. Training and running large language models consumes vast amounts of electricity. AI’s energy demand is projected to double in the next five years, gobbling up 3 percent of total global electricity consumption. But what if AI chips could function more like the human brain, processing complex […]
The CURP, first introduced in 1996, is an 18-character alphanumeric code used for tax filings, school registrations, passport applications, and other official transactions. Until recently, its adoption was voluntary, allowing citizens and residents to opt into its use. The recent legislative amendment, approved last month and formalized through a decree, mandates its use for all Mexicans, with a gradual rollout expected to be completed by February 2026.
According to the Biometric Update, the Ministry of the Interior and the Digital Transformation Agency are tasked with creating a Unified Identity Platform within 90 days, while public and private institutions must update their systems to recognize the new identifier. Additionally, a national program to collect biometric data from children and adolescents is set to begin within 120 days.
After decades of people suffering from microwave radiation, and little efforts to protect people from it, industry seemed to be more focused on the prize, the large profits regardless of the health concerns. Some people believe it goes much further than profits. Listen for a eye opening talk with Mark Steele.
United States begins wireless identification for Health Records https://time.com/7306647/trump-health-data-medical-records/ JULY 30, 2025 – The Trump Administration announced a new initiative on Wednesday designed to allow Americans to share their medical records across a host of apps and programs managed by private tech companies—a move that proponents says will facilitate easier access to those records across […]
Jul 18, 2025, 3:57 pm EDT | Masha Borak Mexico has officially introduced a digital identification system by signing a law that turned the previously optional biometric-based citizen code into a mandatory document for all citizens. Last month, legislators approved amendments to a law related to the 18-character personal identifier, known as Unique Population Registry Code (Clave […]
Abstract – Novel coronavirus infection (COVID-19) has severely threatened public health. Frequent hospital visits are required for COVID-19 therapy and monitoring, which raises the load on hospitals and patients. Current advancements in wearable sensors and communication protocols are contributing to improving the healthcare system and will soon transform healthcare delivery. Future patient monitoring and health information delivery systems will be profoundly impacted by current and upcoming communication breakthroughs and microelectronics and embedded systems technology improvements. Bandwidth constraints, power consumption, and skin or tissue protection are significant obstacles. This study offers a comprehensive analysis of wireless body area networks, details their use in the COVID-19 treatment process, and proposes a paradigm for integrating body area networks into telemedicine systems. This study also addresses current developments, the WBAN-telemedicine system, and the scope of future research.
