Nokia technologies oy (20240114505). DETERMINING WAVEFORM FOR UPLINK TRANSMISSION simplified abstract
Contents
- 1 DETERMINING WAVEFORM FOR UPLINK TRANSMISSION
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 DETERMINING WAVEFORM FOR UPLINK TRANSMISSION - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Original Abstract Submitted
DETERMINING WAVEFORM FOR UPLINK TRANSMISSION
Organization Name
Inventor(s)
Esa Tapani Tiirola of Oulu (FI)
Alessio Marcone of Munich (DE)
Amir Mehdi Ahmadian Tehrani of Munich (DE)
DETERMINING WAVEFORM FOR UPLINK TRANSMISSION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240114505 titled 'DETERMINING WAVEFORM FOR UPLINK TRANSMISSION
Simplified Explanation
The abstract describes a method for determining a waveform for uplink transmission based on frequency domain resource allocation, allowing for dynamic waveform switching in a network.
- Instructions are transmitted in a network or included in apparatuses to determine a waveform for uplink transmission based on frequency domain resource allocation.
- The instructions associate resource block regions with waveforms, allowing for efficient allocation.
- The determined waveform is used in the uplink transmission, optimizing the transmission process.
Potential Applications
This technology could be applied in wireless communication systems, such as 5G networks, to improve resource allocation and enhance uplink transmission efficiency.
Problems Solved
This technology solves the problem of inefficient resource allocation in uplink transmissions, allowing for dynamic waveform switching based on frequency domain allocation.
Benefits
The benefits of this technology include improved uplink transmission efficiency, optimized resource allocation, and enhanced overall network performance.
Potential Commercial Applications
Potential commercial applications of this technology include telecommunications companies, network equipment manufacturers, and any industry utilizing wireless communication systems.
Possible Prior Art
One possible prior art could be research or patents related to dynamic waveform switching in wireless communication systems or resource allocation optimization in network transmissions.
Unanswered Questions
How does this technology impact network latency in real-world scenarios?
This article does not delve into the specific effects of this technology on network latency, leaving room for further research and analysis in practical applications.
What are the potential security implications of implementing dynamic waveform switching in wireless networks?
The article does not address the security aspects of this technology, such as potential vulnerabilities or risks associated with dynamic waveform switching, which could be important considerations for implementation.
Original Abstract Submitted
to enable dynamic waveform switching, one or more instructions on how to determine a waveform amongst at least a first waveform and a second waveform for at least one uplink transmission based at least on frequency domain resource allocation for the at least one uplink transmission may be transmitted in a network, or apparatuses may comprise one or more of the one or more instructions. the one or more instructions associate at least resource block regions with waveforms. the one or more instructions may be applied to determine, based on a frequency domain resource allocation for an uplink transmission, a waveform for the uplink transmission at least according to a resource block region in the frequency domain resource allocation. the waveform determined is then used in the uplink transmission.
