Dell products l.p. (20240098516). INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS simplified abstract
Contents
- 1 INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Original Abstract Submitted
INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS
Organization Name
Inventor(s)
Ozlem Yildiz of New York NY (US)
Mohammad Alavirad of Kanata (CA)
INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240098516 titled 'INCREASING SECRECY CAPACITY FOR INTELLIGENT REFLECTIVE SURFACE-ASSISTED WIRELESS COMMUNICATIONS
Simplified Explanation
The technology described in this patent application focuses on enhancing the secrecy capacity/performance of an Intelligent Reflective Surface (IRS)-assisted communication system. By determining the optimal location for placing the IRS using gradient descent and ray tracing, along with an alignment strategy of tile-allocation and phase-shift adjustment, the system can maximize secrecy capacity for a receiver in a given environment.
- Gradient descent and ray tracing are used to find the best placement for the IRS.
- An alignment strategy of tile-allocation and phase-shift adjustment is employed to optimize secrecy capacity.
- IRS-assisted communications significantly improve secrecy capacity performance in media communication networks.
Potential Applications
The technology can be applied in indoor communication networks, secure data transmission, military communications, and confidential business communications.
Problems Solved
1. Enhances secrecy capacity/performance of communication systems. 2. Optimizes placement of IRS for maximum effectiveness.
Benefits
1. Improved secrecy capacity in communication systems. 2. Enhanced security and privacy in data transmission. 3. Efficient utilization of IRS technology for better performance.
Potential Commercial Applications
"Enhancing Secrecy Capacity in Communication Systems" - This technology can be utilized in secure communication systems for businesses, government agencies, and military operations.
Possible Prior Art
There may be prior art related to optimizing the placement of reflective surfaces in communication systems, but further research is needed to identify specific examples.
What is the impact of this technology on current communication systems?
This technology significantly improves the secrecy capacity/performance of communication systems, making them more secure and efficient.
How does the alignment strategy of tile-allocation and phase-shift adjustment contribute to optimizing secrecy capacity?
The alignment strategy ensures that the IRS is positioned and configured in a way that maximizes secrecy capacity, leading to better overall performance in communication systems.
Original Abstract Submitted
the technology described herein is directed towards increasing the secrecy capacity/performance of an intelligent reflective surface (irs)-assisted communication system. described is determining a location for placement of the irs to achieve the maximum secrecy capacity with respect to a receiver in an environment. gradient descent along with ray tracing, facilitates determination of the optimal placement, which can be used along with an alignment strategy of tile-allocation and phase-shift adjustment for the irs to optimize the secrecy capacity within constraints. when implemented at the determined location, irs-assisted communications result in significant improvement of the secrecy capacity performance for an (e.g., indoor) media communication network.