Title :
Handling of Uplink Transmitted Carrier Power Difference in DC-HSUPA
Author :
Kazmi, Muhammad ; Nyberg, Henrik ; Drugge, Oskar ; Ghasemzadeh, Farshid
Author_Institution :
Wireless Access Networks, Ericsson Res., Stockholm, Sweden
Abstract :
In WCDMA DC-HSUPA, which allows the user equipment (UE) to simultaneously transmit data over two independent enhanced uplink (EUL) data channels, uplink power control and scheduling of uplink data transmission are independently performed on the two uplink carriers. It has been shown that various factors such as the uplink scheduling strategy, traffic pattern, independent power control, propagation environment etc, cause large power imbalance between the two uplink carriers up to 18-20 dB. This in turn may cause excessive power leakage from the stronger carrier into the weaker carrier resulting in uplink performance loss of the weaker carrier. To mitigate the adverse affect of the power imbalance, the DC-HSUPA capable UE is required to meet the standardized "In-band Emission" requirement of -24 dBc.
Keywords :
3G mobile communication; access protocols; cellular radio; code division multiple access; WCDMA DC-HSUPA; dual cell high speed uplink packet access; in-band emission; independent enhanced uplink data channels; independent power control; power imbalance; propagation environment; traffic pattern; uplink data transmission; uplink power control; uplink scheduling strategy; uplink transmitted carrier power difference; user equipment; Base stations; Data communication; Fading; Load modeling; Modulation; Power control; Telecommunication traffic;
Conference_Titel :
Vehicular Technology Conference (VTC Spring), 2011 IEEE 73rd
Conference_Location :
Yokohama
Print_ISBN :
978-1-4244-8332-7
DOI :
10.1109/VETECS.2011.5956376
