QUALCOMM Incorporated (20240235582). SPECTRAL MASKS AND SPECTRAL FLATNESS PARAMETERS FOR MILLIMETER WAVE (MMWAVE) CARRIER SIGNALS IN WIRELESS COMMUNICATION NETWORKS simplified abstract
SPECTRAL MASKS AND SPECTRAL FLATNESS PARAMETERS FOR MILLIMETER WAVE (MMWAVE) CARRIER SIGNALS IN WIRELESS COMMUNICATION NETWORKS
Organization Name
Inventor(s)
Jialing Li Chen of San Diego CA (US)
SPECTRAL MASKS AND SPECTRAL FLATNESS PARAMETERS FOR MILLIMETER WAVE (MMWAVE) CARRIER SIGNALS IN WIRELESS COMMUNICATION NETWORKS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240235582 titled 'SPECTRAL MASKS AND SPECTRAL FLATNESS PARAMETERS FOR MILLIMETER WAVE (MMWAVE) CARRIER SIGNALS IN WIRELESS COMMUNICATION NETWORKS
The patent application discusses methods, components, devices, and systems for applying spectral masks and spectral flatness parameters in wireless communication networks for transmitting millimeter wave signals.
- Wireless communication devices can apply derivative spectral masks with transitional offset ranges based on the bandwidth ratio between the millimeter wave signal and a nominal carrier signal.
- The derivative spectral mask can have an in-band frequency offset range wider than the scaled width of the spectral mask for the nominal carrier signal.
Potential Applications: - 5G and future wireless communication networks - Internet of Things (IoT) devices - Autonomous vehicles - Smart city infrastructure - Industrial automation
Problems Solved: - Ensuring efficient transmission of millimeter wave signals - Maintaining spectral efficiency in wireless communication networks - Adhering to regulatory spectral mask requirements
Benefits: - Improved spectral efficiency - Enhanced data transmission rates - Better utilization of millimeter wave spectrum - Compliance with regulatory requirements
Commercial Applications: Title: "Enhanced Spectral Masking for Millimeter Wave Communication" This technology can be utilized by telecommunications companies, IoT device manufacturers, automotive companies, smart city developers, and industrial automation firms to enhance their wireless communication capabilities and meet regulatory standards.
Questions about the technology: 1. How does the application of derivative spectral masks improve the transmission of millimeter wave signals? 2. What are the key advantages of using spectral flatness parameters in wireless communication networks?
Original Abstract Submitted
this disclosure provides wireless communication methods, components, devices and systems for applying spectral masks and spectral flatness parameters in conjunction with transmission of millimeter wave (mmwave) signals in wireless communication networks. in some examples, in conjunction with transmission of an mmwave signal, a wireless communication device can apply a derivative spectral mask featuring transitional offset ranges that correspond to transitional frequency offset ranges of a spectral mask for a nominal carrier signal, scaled according to a ratio between a bandwidth of the mmwave signal and a bandwidth of the nominal carrier signal. in some examples, the derivative spectral mask can feature an in-band frequency offset range that is wider than a scaled width of an in-band frequency offset range of the spectral mask for the nominal carrier signal.
