18301124. SYSTEMS AND METHODS FOR HIGH-POWER TRANSMISSION simplified abstract (Apple Inc.)
Contents
SYSTEMS AND METHODS FOR HIGH-POWER TRANSMISSION
Organization Name
Inventor(s)
Alexander Sayenko of Munich (DE)
Anatoliy S Ioffe of Sunnyvale CA (US)
Fucheng Wang of Cupertino CA (US)
Sumit Verma of San Diego CA (US)
SYSTEMS AND METHODS FOR HIGH-POWER TRANSMISSION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18301124 titled 'SYSTEMS AND METHODS FOR HIGH-POWER TRANSMISSION
The abstract describes a patent application for user equipment that can transmit data with a communication node and/or a non-terrestrial network using high power while remaining below an emission threshold.
- User equipment includes a transmitter coupled to an antenna for data transmission.
- Transmission power is adjusted to remain below an emission threshold.
- Buffer status reports may be adjusted to reduce uplink allocation frequency.
- Duty cycle is determined to regulate high power transmission.
- Priority of uplink symbols is considered for high power transmission.
Potential Applications: - Satellite communication systems - IoT devices - Remote monitoring systems
Problems Solved: - Enhancing transmission range - Improving likelihood of successful transmissions - Meeting emission regulations
Benefits: - Increased reliability of data transmission - Extended reach to non-terrestrial networks - Compliance with emission standards
Commercial Applications: "High-Power Transmission Technology for Enhanced Satellite Communication Systems"
Questions about the technology: 1. How does the user equipment adjust transmission power to remain below the emission threshold? 2. What are the potential implications of using high power transmission in IoT devices?
Original Abstract Submitted
User equipment may include a transmitter coupled to an antenna to enable the user equipment to transmit data with a communication node and/or a non-terrestrial network. The user equipment may transmit using high power over a period of time such that the transmission power of the user equipment is below an emission threshold. For example, the user equipment may adjust a buffer status report to reduce uplink allocation frequency. In another example, the user equipment may determine a duty cycle and transmit the data using high power based on the duty cycle. In another example, the user equipment may determine a priority of uplink symbols and transmit certain uplink symbols using high power. In this way, the user equipment may transmit using high power and may improve transmission range to the non-terrestrial network and/or a likelihood that transmissions may be received by the network while remaining within the emission threshold.