MEASUREMENT GAP MANAGEMENT

Organization Name

QUALCOMM Incorporated

Inventor(s)

Harish Venkatachari of San Jose CA (US)

Gautham Jayaram of San Diego CA (US)

Udayan Bhawnani of San Diego CA (US)

Vishu Kumar of Bengaluru, Karnataka (IN)

Srinidhi Nagaraja of Bengaluru, Karnataka (IN)

Rajendra Billure of Bangalore, Karnataka (IN)

Ramesh Rajendra Kamath of San Diego CA (US)

MEASUREMENT GAP MANAGEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18259224 titled 'MEASUREMENT GAP MANAGEMENT

Simplified Explanation

The abstract describes a wireless communication device with a processor, memory, and instructions for determining gain states and detecting new cells.

• Wireless communication device with processor and memory
• Instructions stored in memory for determining gain states and detecting new cells
• Determines if measured gain state matches appointed gain state for a measurement gap
• Determines if a new cell is detected during the measurement gap
• Decides whether to skip subsequent measurement gap based on gain state and new cell detection

Potential Applications

• Wireless communication systems
• Mobile devices
• Internet of Things (IoT) devices

Problems Solved

• Efficient management of wireless communication resources
• Accurate detection of new cells in a network
• Optimization of measurement processes in wireless systems

Benefits

• Improved network performance
• Enhanced reliability of wireless communication
• Efficient use of resources in wireless networks

Original Abstract Submitted

A wireless communication device is described. The wireless communication device includes a processor. The wireless communication device also includes memory in electronic communication with the processor. The wireless communication device further includes instructions stored in the memory. The instructions are executable to determine, for a first measurement gap, whether a measured gain state matches an appointed gain state. The instructions are also executable to determine, for the first measurement gap, whether a new cell is detected. The instructions are further executable to determine whether to skip a subsequent measurement gap based on whether the measured gain state matches the appointed gain state and whether a new cell is detected.