Apple inc. (20240107464). METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2 simplified abstract
Contents
- 1 METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2 - 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 Unanswered Questions
- 1.11 Original Abstract Submitted
METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2
Organization Name
Inventor(s)
Huaning Niu of Cupertino CA (US)
Dawei Zhang of Cupertino CA (US)
Laxminarayana Pillutla of San Diego CA (US)
Manasa Raghavan of Cupertino CA (US)
Sharad Sambhwani of San Diego CA (US)
Xiang Chen of Cupertino CA (US)
Yang Tang of Cupertino CA (US)
METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2 - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240107464 titled 'METHODS OF TYPE 1 UL GAP ACTIVATION AND DEACTIVATION IN FR2
Simplified Explanation
Activating an uplink (UL) gap at a base station involves decoding a user equipment (UE) UL gap capability report, encoding a radio resource control (RRC) UL gap configuration for transmission to the UE, and decoding a power headroom report (PHR) medium access control (MAC) control element received from the UE. The PHR MAC CE may include a P value or a power management maximum power reduction (P-MPR) value. If the P value is equal to one or the P-MPR value is greater than zero, the UL gap configuration is implicitly activated.
- Decoding UE UL gap capability report
- Encoding RRC UL gap configuration
- Decoding PHR MAC CE from UE
- Determining P value or P-MPR value
- Implicitly activating UL gap configuration
Potential Applications
This technology can be applied in wireless communication systems to efficiently manage uplink resources and improve network performance.
Problems Solved
1. Efficient activation of UL gap at base stations 2. Optimal utilization of uplink resources
Benefits
1. Enhanced network efficiency 2. Improved user experience 3. Better resource management
Potential Commercial Applications
Optimizing uplink resource allocation in 5G networks
Possible Prior Art
One possible prior art could be the use of dynamic resource allocation techniques in wireless communication systems to improve resource utilization.
Unanswered Questions
How does this technology impact overall network capacity?
This article does not delve into the specific effects of activating UL gaps on the overall network capacity.
Are there any potential drawbacks to implicitly activating UL gap configurations?
The article does not address any potential drawbacks or limitations of implicitly activating UL gap configurations.
Original Abstract Submitted
activating an uplink (ul) gap at a base station may include decoding a user equipment (ue) ul gap capability report received from a ue. a radio resource control (rrc) ul gap configuration may be encoded for transmission to the ue. a power headroom report (phr) medium access control (mac) control element (ce) received from the ue may be decoded. the phr mac ce may include at least one of a p value or a power management maximum power reduction (p-mpr) value. decoding the measurement information may include determining that the p value is equal to one or the p-mpr value is greater than zero. based on determining that the p value is equal to one or the p-mpr value is greater than zero, the ul gap configuration may be implicitly activated.
- Apple inc.
- Huaning Niu of Cupertino CA (US)
- Dawei Zhang of Cupertino CA (US)
- Jie Cui of Cupertino CA (US)
- Laxminarayana Pillutla of San Diego CA (US)
- Manasa Raghavan of Cupertino CA (US)
- Qiming Li of Beijing (CN)
- Sharad Sambhwani of San Diego CA (US)
- Xiang Chen of Cupertino CA (US)
- Yang Tang of Cupertino CA (US)
- H04W52/36