20240057001. SYSTEMS AND METHODS FOR QUANTUM BASED NETWORK TIME VALIDATION simplified abstract (T-MOBILE INNOVATIONS LLC)
SYSTEMS AND METHODS FOR QUANTUM BASED NETWORK TIME VALIDATION
Organization Name
Inventor(s)
Lyle Walter Paczkowski of Mission Hills KS (US)
Marouane Balmakhtar of Fairfax VA (US)
SYSTEMS AND METHODS FOR QUANTUM BASED NETWORK TIME VALIDATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240057001 titled 'SYSTEMS AND METHODS FOR QUANTUM BASED NETWORK TIME VALIDATION
Simplified Explanation
The abstract describes a quantum computing based network time validation function that can quickly identify issues in network time reference signals.
- Method involves receiving a set of network time reference signals.
- Utilizes a quantum search algorithm on a quantum computing platform to search the data.
- Quantum oracle defines the search task function, which includes a time prediction task function.
- Output indicates validation of the network time reference signals based on the search results.
Potential Applications
- Network time synchronization
- Cybersecurity
- Financial transactions
Problems Solved
- Rapid identification of aberrations in network time signals
- Improved network operation efficiency
Benefits
- Faster validation of network time signals
- Enhanced network security
- Increased accuracy in time-sensitive operations
Original Abstract Submitted
embodiments of the present disclosure provide for a quantum computing based network time validation function that can evaluate a large set of network time reference signals (e.g., a set of timestamps) and rapidly identify aberrations that can negatively affect network operation. in some embodiments, a method comprises: receiving a set of task data comprising a set of network time reference signals; searching the set of task data using a quantum search algorithm executed on a quantum computing platform, wherein the quantum search algorithm performs operations on more quantum states generated by the quantum computing platform based on a search task function defined by a quantum oracle, wherein the search task function comprises a time prediction task function; and generating an output comprising an indication of validation of the set of network time reference signals based on the searching.