Intel corporation (20240214022). WIRELESS COMMUNICATION, MAINTAINING WIRELESS THROUGHPUT, AND DETECTION AND MANAGEMENT OF HUMAN BODY PROXIMITY TO TRANSMITTING ANTENNAS simplified abstract
WIRELESS COMMUNICATION, MAINTAINING WIRELESS THROUGHPUT, AND DETECTION AND MANAGEMENT OF HUMAN BODY PROXIMITY TO TRANSMITTING ANTENNAS
Organization Name
Inventor(s)
Vamshi Krishna Aagiru of Bangalore (IN)
Praveen Kashyap Ananta Bhat of Bangalore (IN)
Shailendra Singh Chauhan of Bangalore (IN)
Sajal Kumar Das of Bangalore (IN)
Mallari Hanchate of Bangalore (IN)
Mythili Hegde of Bangalore (IN)
Siva Prasad Jangili Ganga of Jambagh (IN)
Satyajit Siddharay Kamat of Bangalore (IN)
Noam Kogos of Ramat Hasharo (IL)
Adiel Langer of Petah Tiqwa (IL)
Padmesh Murugan Latha of Bangalore (IN)
Vishram Shriram Pandit of Bangalore (IN)
Abhijith Prabha of Piravom (IN)
Manisha Raiguru of Bangalore (IN)
Ehud Reshef of Qiryat Tivon (IL)
Shubham Kumar Sahu of Balasore (IN)
Gurpreet Sandhu of Bangalore (IN)
Michael Shachar of Kfar Glikson (IL)
Harry Skinner of Beaverton OR (US)
Madhukiran Srinivasareddy of Bangalore (IN)
Gokul Subramaniam of Bangalore (IN)
Maruti Tamrakar of Chhattisgarh (IN)
Jayprakash Thakur of Bangalore (IN)
Vijaya Prasad Ummella of Bangalore (IN)
Yagnesh Vinodrai Waghela of Bangalore (IN)
WIRELESS COMMUNICATION, MAINTAINING WIRELESS THROUGHPUT, AND DETECTION AND MANAGEMENT OF HUMAN BODY PROXIMITY TO TRANSMITTING ANTENNAS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240214022 titled 'WIRELESS COMMUNICATION, MAINTAINING WIRELESS THROUGHPUT, AND DETECTION AND MANAGEMENT OF HUMAN BODY PROXIMITY TO TRANSMITTING ANTENNAS
The abstract of this patent application describes various principles and methods to enhance wireless communication in a user computing device. It includes managing wireless transmissions in compliance with specific absorption rate regulations, detecting user proximity to a transmitting antenna, and implementing alternative strategies to improve communication.
- Management of wireless transmissions in accordance with specific absorption rate regulations
- Detection of user proximity to a transmitting antenna
- Implementation of alternative strategies such as selecting alternate antennas or baseband modems, and changing device orientation to enhance wireless communication
Potential Applications: - Mobile devices - Internet of Things (IoT) devices - Wearable technology - Smart home devices
Problems Solved: - Ensuring compliance with specific absorption rate regulations - Improving wireless communication performance - Enhancing user experience with wireless devices
Benefits: - Enhanced wireless communication reliability - Improved user experience with wireless devices - Compliance with regulations for specific absorption rate
Commercial Applications: Title: "Enhancing Wireless Communication in User Computing Devices" This technology can be applied in various industries such as telecommunications, consumer electronics, healthcare (wearable devices), and smart home automation.
Questions about the technology: 1. How does this technology address specific absorption rate regulations in wireless communication devices? 2. What are the potential implications of user proximity detection in enhancing wireless communication performance?
Frequently Updated Research: Stay updated on advancements in wireless communication technologies, regulations related to specific absorption rate, and innovations in antenna and modem selection for improved performance.
Original Abstract Submitted
various principles and methods are described herein to improve wireless communication in a user computing device. certain aspects of the disclosure describe management of wireless transmissions relative to various regulations related to a specific absorption rate. other aspects of the disclosure relate to detection of user proximity to a transmitting antenna. other aspects relate to alternative strategies to improve wireless communication, such as selection of alternate antennas or baseband modems, or changes in device orientation.
- Intel corporation
- Vamshi Krishna Aagiru of Bangalore (IN)
- Santhosh Ap of Bangalore (IN)
- Praveen Kashyap Ananta Bhat of Bangalore (IN)
- Arjun C of Bangalore (IN)
- Shailendra Singh Chauhan of Bangalore (IN)
- Sajal Kumar Das of Bangalore (IN)
- Walid El Hajj of Antibes (FR)
- Isha Garg of Bangalore (IN)
- Sagar Gupta of Ghaziabad (IN)
- Mallari Hanchate of Bangalore (IN)
- Mythili Hegde of Bangalore (IN)
- Siva Prasad Jangili Ganga of Jambagh (IN)
- Satyajit Siddharay Kamat of Bangalore (IN)
- Noam Kogos of Ramat Hasharo (IL)
- Ronen Kronfeld of Shoham (IL)
- Adiel Langer of Petah Tiqwa (IL)
- Gil Meyuhas of Tel-Aviv (IL)
- Padmesh Murugan Latha of Bangalore (IN)
- Vishram Shriram Pandit of Bangalore (IN)
- Abhijith Prabha of Piravom (IN)
- Manisha Raiguru of Bangalore (IN)
- Ehud Reshef of Qiryat Tivon (IL)
- Amir Rubin of Kiryat Ono (IL)
- Shubham Kumar Sahu of Balasore (IN)
- Gurpreet Sandhu of Bangalore (IN)
- Michael Shachar of Kfar Glikson (IL)
- Harry Skinner of Beaverton OR (US)
- Madhukiran Srinivasareddy of Bangalore (IN)
- Gokul Subramaniam of Bangalore (IN)
- Maruti Tamrakar of Chhattisgarh (IN)
- Jayprakash Thakur of Bangalore (IN)
- Vijaya Prasad Ummella of Bangalore (IN)
- Yagnesh Vinodrai Waghela of Bangalore (IN)
- H04B1/3827
- H04W52/36
- CPC H04B1/3838