18568166. ELECTRONIC DEVICE AND MODULATION METHOD simplified abstract (NTT DOCOMO, INC.)
Contents
ELECTRONIC DEVICE AND MODULATION METHOD
Organization Name
Inventor(s)
Yoshihisa Kishiyama of Tokyo (JP)
ELECTRONIC DEVICE AND MODULATION METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 18568166 titled 'ELECTRONIC DEVICE AND MODULATION METHOD
The present disclosure introduces an electronic device and a modulation method for data transmission.
- The electronic device includes a receiving unit to obtain a first input bit sequence and a control unit to perform pseudo N-order first type modulation on the input sequence.
- The modulation process generates N first symbols, which are a subset of second symbols obtained through M-order second type modulation, where M and N are positive integers and M is greater than N.
Potential Applications:
- This technology can be applied in wireless communication systems to improve data transmission efficiency.
- It can be used in IoT devices, satellite communication, and radar systems for enhanced signal processing.
Problems Solved:
- Enhances the modulation process to increase the data rate and reliability of communication systems.
- Optimizes the use of available bandwidth for improved signal quality.
Benefits:
- Higher data transmission rates leading to faster communication.
- Enhanced signal quality and reliability in various communication applications.
Commercial Applications:
- This technology can be utilized in 5G networks, satellite communication systems, and IoT devices for efficient data transmission.
- Market implications include improved connectivity in smart devices and enhanced performance in wireless networks.
Prior Art:
- Researchers can explore prior patents related to modulation techniques in wireless communication systems to understand the evolution of this technology.
Frequently Updated Research:
- Stay updated on advancements in modulation techniques for wireless communication systems to incorporate the latest innovations in data transmission technology.
Questions about Modulation Techniques: 1. How does pseudo N-order first type modulation improve data transmission efficiency?
- Pseudo N-order modulation optimizes the use of available bandwidth to generate symbols efficiently, enhancing data rates in communication systems.
2. What are the key differences between M-order second type modulation and N-order first type modulation?
- M-order modulation involves a higher number of symbols compared to N-order modulation, allowing for more complex signal processing in communication systems.
Original Abstract Submitted
The present disclosure provides an electronic device and a modulation method. The electronic device includes: a receiving unit, which is configured to obtain a first input bit sequence; and a control unit, which is configured to perform pseudo N-order first type modulation on the first input bit sequence, wherein N first symbols that may be obtained by means of the pseudo N-order first type modulation are a portion of second symbols that may be obtained by means of M-order second type modulation, M and N are positive integers, and M is greater than N.