MOBILE COMMUNICATION BASE STATION SYSTEM AND METHOD

Organization Name

NXP B.V.

Inventor(s)

Leendert Albertus Dick Van Den Broeke of Malden (NL)

MOBILE COMMUNICATION BASE STATION SYSTEM AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18481414 titled 'MOBILE COMMUNICATION BASE STATION SYSTEM AND METHOD

Simplified Explanation: The patent application describes a mobile communication base station that can transmit and receive both communication and sensing signals using multiple channels. The baseband processor in the station can configure each channel for different modes such as communication transmit, communication receive, sense transmit, and sense receive.

• The baseband processor includes modules for carrier mapping-demapping and sensing for each channel.
• The controller in the baseband processor controls the mapping-demapping module to allocate transmit symbols to different parts of the available bandwidth in the sense-transmit and communication-transmit modes.

Key Features and Innovation:

• Mobile communication base station for joint communication and sensing.
• Configurable baseband processor for transmitting and receiving signals.
• Multiple channels with different modes for communication and sensing.
• Carrier mapping-demapping and sensing modules for each channel.
• Controller for controlling the allocation of transmit symbols in different modes.

Potential Applications: This technology can be applied in various fields such as:

• Wireless communication networks
• Internet of Things (IoT) devices
• Smart city infrastructure
• Environmental monitoring systems

Problems Solved:

• Efficient utilization of bandwidth for both communication and sensing.
• Seamless integration of communication and sensing capabilities in a single device.
• Flexibility in configuring channels for different modes of operation.

Benefits:

• Improved data transmission and reception efficiency.
• Enhanced sensing capabilities for monitoring and data collection.
• Cost-effective solution for integrated communication and sensing needs.

Commercial Applications: Title: Integrated Communication and Sensing Base Station for Next-Gen Networks This technology can be commercially used in:

• Telecommunication companies for network optimization.
• IoT device manufacturers for smart applications.
• Environmental agencies for real-time monitoring.
• Research institutions for data collection and analysis.

Prior Art: Readers can explore prior art related to integrated communication and sensing technologies in the field of mobile communication networks and IoT devices.

Frequently Updated Research: Stay updated on the latest advancements in integrated communication and sensing technologies for mobile base stations to leverage the benefits of this innovation.

Questions about Integrated Communication and Sensing Base Station: 1. How does the baseband processor in the mobile communication base station manage different modes of operation? 2. What are the potential challenges in implementing integrated communication and sensing capabilities in a single device?

Original Abstract Submitted

A mobile communication base station for joint communication and sensing and method of operation of a mobile communication base station is described. The mobile communication base station includes a baseband processor configurable to transmit and receive sensing and communication signals via one or channels. Each channel is configurable in one or more of a communications-transmit mode, a communications-receive mode, a sense-transmit mode and a sense-receive mode. For each channel, the baseband processor includes a carrier mapping-demapping module and a sense module. The baseband processor includes a controller coupled to the carrier mapping-demapping module and configured to control the carrier mapping-demapping module of the one or more channels to map the plurality of transmit-OFDM-symbols to a bandwidth part of an available OFDM bandwidth in the sense-transmit mode and the communications-transmit mode.