20240090052.ENHANCED BANDWIDTH WIRELESS COMMUNICATION SYSTEM simplified abstract (apple inc.)

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ENHANCED BANDWIDTH WIRELESS COMMUNICATION SYSTEM

Organization Name

apple inc.

Inventor(s)

Ioannis Sarkas of Redwood City CA (US)

Sharad Sambhwani of San Diego CA (US)

ENHANCED BANDWIDTH WIRELESS COMMUNICATION SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240090052 titled 'ENHANCED BANDWIDTH WIRELESS COMMUNICATION SYSTEM

Simplified Explanation

The abstract describes a patent application for a system and method that allows an electronic device to communicate using two different communication systems based on different frequency spectrums. These systems may share some front-end processing circuitry to reduce complexity and footprint of the communication systems.

  • Explanation of the patent/innovation:
 * Enables electronic devices to communicate using both a first communication system (e.g., 5G network frequencies) and a second communication system (e.g., 6G network frequencies).
 * Front-end processing circuitry is shared between the two communication systems to reduce complexity and footprint of sub-THz communication systems.

Potential Applications

The technology could be applied in:

  • Next-generation mobile devices
  • Internet of Things (IoT) devices
  • High-speed data communication systems

Problems Solved

  • Overcoming limitations of current communication systems
  • Enhancing communication speed and efficiency
  • Reducing complexity and footprint of sub-THz communication systems

Benefits

  • Improved communication capabilities
  • Enhanced data transfer speeds
  • Reduced complexity and footprint of communication systems

Potential Commercial Applications

Optimized for SEO: "Commercial Applications of Dual Frequency Spectrum Communication Technology"

  • Telecommunications industry
  • Electronics manufacturers
  • Networking companies

Possible Prior Art

There may be prior art related to:

  • Multi-frequency communication systems
  • Shared processing circuitry in communication devices

What are the potential security implications of using multiple communication systems in a single device?

Using multiple communication systems in a single device could potentially increase the attack surface for malicious actors, as they may exploit vulnerabilities in either system to gain unauthorized access to the device or intercept sensitive information.

How does the shared front-end processing circuitry impact the overall performance of the communication systems?

The shared front-end processing circuitry may improve the overall performance of the communication systems by reducing complexity and footprint, leading to more efficient data transmission and reception. However, it could also introduce potential bottlenecks or compatibility issues that need to be carefully managed during implementation.


Original Abstract Submitted

systems and methods described herein may enable an electronic device to communicate using both a first communication system based on a first frequency spectrum (e.g., new radio (nr)/fifth generation (5g) network frequencies) and a second communication system based on a second frequency spectrum (e.g., sub-terahertz (sub-thz) frequencies, sixth generation (6g) network frequencies)). the two communication systems may share some front-end processing circuitry, which may help with reducing complexity and footprints of sub-thz communication systems.