18521646. MULTI-TRANSMISSION TIME INTERVAL (TTI) SCHEDULING FOR DATA TRANSMISSION simplified abstract (Intel Corporation)

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MULTI-TRANSMISSION TIME INTERVAL (TTI) SCHEDULING FOR DATA TRANSMISSION

Organization Name

Intel Corporation

Inventor(s)

Gang Xiong of Portland OR (US)

Yingyang Li of Santa Clara CA (US)

Gregory Morozov of Santa Clara CA (US)

Daewon Lee of Portland OR (US)

MULTI-TRANSMISSION TIME INTERVAL (TTI) SCHEDULING FOR DATA TRANSMISSION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18521646 titled 'MULTI-TRANSMISSION TIME INTERVAL (TTI) SCHEDULING FOR DATA TRANSMISSION

Simplified Explanation

Various embodiments herein focus on multi-Transmission Time Interval (TTI) scheduling for data transmission above the 52.6 GHz carrier frequency.

  • Multi-TTI scheduling allows for efficient data transmission in high-frequency systems.
  • Operating above 52.6 GHz carrier frequency requires specialized scheduling techniques.
  • These embodiments aim to optimize data transmission performance in such systems.

Potential Applications

The technology can be applied in:

  • 5G and beyond wireless communication systems
  • High-speed data networks
  • Satellite communication systems

Problems Solved

  • Efficient data transmission at high carrier frequencies
  • Optimization of scheduling for improved performance
  • Meeting the demands of next-generation communication systems

Benefits

  • Enhanced data transmission efficiency
  • Improved system performance
  • Better utilization of high-frequency spectrum

Potential Commercial Applications

  • Telecommunication companies
  • Satellite communication providers
  • Networking equipment manufacturers

Possible Prior Art

One possible prior art could be the use of TTI scheduling in lower frequency systems, but specific techniques for high-frequency systems may not have been addressed.

Unanswered Questions

How does multi-TTI scheduling impact power consumption in high-frequency systems?

Multi-TTI scheduling may lead to increased power consumption due to more frequent data transmissions. Further research is needed to understand the trade-offs between performance and power efficiency.

What are the potential challenges in implementing multi-TTI scheduling in real-world high-frequency communication systems?

Real-world deployment of multi-TTI scheduling may face challenges such as hardware compatibility, synchronization issues, and interference management. Research into practical implementation strategies is necessary to address these challenges.


Original Abstract Submitted

Various embodiments herein are directed to multi-Transmission Time Interval (TTI) scheduling for data transmission for system operating above the 52.6 GHz carrier frequency. Other embodiments may be disclosed and/or claimed.