**Mobile Computing COE 446IS-95Tarek SheltamiKFUPMCCSECOEhttp://faculty.kfupm.edu.sa/coe/tarek/COE446.htm

Principles of Wireless NetworksK. Pahlavan and P. Krishnamurth

Communication Networks

**OutlineSoft handoffOpen Loop Reverse Link Power ControlClosed Loop Reverse Link Power ControlForward Link Power Control

Communication Networks

**Soft HandoffSoft handoff refers to the process by which an MT is in communication with multiple candidate BSs before finally deciding to communicate its traffic through one of them The reason for implementing soft handoff has its basis in the near-far problem and the associated power control mechanismIf an MT moves far away from a BS and continues to increase its transmit power to compensate for the nearfar problem, it will very likely end up in an unstable situationIt will also cause a lot of interference to MTs in neighboring cells

Communication Networks

**Soft Handoff..To avoid this situation and ensure that an MT is connected to the BS with the largest RSS, a soft handoff strategy is implemented An MT will continuously track all BSs nearby and communicate with multiple BSs for a short while, if necessary, before deciding which BS to select as its point of attachmentIn the IS-95 standard, three types of soft handoffs are definedThe softer handoff: the handoff is between two sectors of the same cell

Communication Networks

**Soft Handoff..The soft handoff: the handoff is between two sectors of different cellsThe soft-softer handoff: the candidates for handoff include two sectors from the same cell and a third sector from a different cell In all cases, the handoff decision mechanism is more or less the sameThe soft handoff procedure involves several base stationsA controlling primary BS coordinates the addition or deletion of other base stations to the call during soft handoff

Communication Networks

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Communication Networks

**Soft Handoff..The mobile detects a pilot signal from a new cell and informs primary base station AA communication path from base station B to the original frame selector is establishedThe frame selector selects frames from both streamsThe mobile detects that base station As pilot is failing and requests that this path be droppedThe path from original base station A to the frame selector is droppedBase station B gives base station A its assigned Walsh codeBase station A gives the mobile the Walsh code of base station B as part of the HDM. Now the mobile can listen to base station BBase station A gives the users long-code mask to base station B. Now base station B can listen to the mobileBoth base stations A and B receive forward link power control information back from the mobile and act accordingly

Communication Networks

**Soft Handoff Setup

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**End of Soft Handoff

Communication Networks

**Soft Handoff..The pilot channels of each cell are involved in the handoff mechanismThe reason behind this is that it is the only channel not subject to power control and provides a measure of the RSSThe MT maintains a list of pilot channels that it can hear and classifies them into the following four categoriesThe active set: consists of pilots that are being continuously monitored or used by the MTThe MT has three RAKE fingers that allows it to monitor or use up to three pilotsThe active set pilot channels are indicated in the HDM on the downlink by the BS

Communication Networks

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Communication Networks

**Soft Handoff..The Candidate set: can have at most six pilots, and these refer to pilots that are not in the active set but that have sufficient RSS to be demodulated and used in demodulating the associated traffic channelsThe Neighbor set: contains pilots that belong to neighboring cells and are intimated to the MT by a system parameters message on the paging channel The Remaining set: contains all other possible pilots in the systemThe receiver uses a RAKE to capture multipath components, it employs search windows to track each of the sets of pilot channelsSeveral thresholds are used in the soft handoff procedure. These are similar to the RSS thresholds discussed before

Communication Networks

**Pilot Detection Threshold in IS-95The MT maintains a list of pilots that are being used in the active set Initially the MT is connected to one BS and only its pilot and the multipath components of the pilot are in the active set As the MT moves away, the pilot of the adjacent cell becomes stronger If its strength is above the pilot detection threshold (T_ADD), this pilot must be added to the active set and the MT enters a soft handoff region If the pilot detection threshold is too small, there may be false alarms caused by noise or interfering signals If the pilot detection threshold is too large, useful pilots are not detected, and the call may be dropped

Communication Networks

**Using Various Thresholds in Soft Handoffs As soon as the strength of the pilot exceeds T_ADD, it is transferred to the candidate set and the MT sends the pilot strength measurement to the BS that is transmitting the pilotThe BS sends a handoff direction message to the MT at which time the pilot is transferred to the active set The MT acquires a traffic channel and sends a handoff completion messageAfter the pilot strength drops below T_DROP, the handoff drop timer is started

Communication Networks

**Using Various Thresholds in Soft Handoffs..If the signal strength is still below T_DROP after the timer expires, the MT sends another pilot strength measurement to the BS associated with the pilot When it receives the corresponding HDM without the pilot in it, the MT moves the pilot to the neighbor set MT sends a handoff completion messageAt some point, the BS may send a neighbor update list message that no longer contains the pilot and it is moved into the remaining set

Communication Networks

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Communication Networks

**Power Control In CDMA systems, Co-channel and adjacent channel interference are not the major problemThe interference is from other users transmitting in the same frequency band at the same time In order to avoid the near-far effect, it is important to implement good power control In order to maintain a good link quality, effects such as fading need to be countered by increasing the transmit powerAn important factor is that the signal strength may be good, but frames are still received in error because of interference

Communication Networks

**Open Loop Reverse Link Power Control in IS-95 Before a traffic channel is assigned, there is no closed loop power control in CDMA because the closed loop power control involves feedback from the BS that is delivered on the traffic channel 800 times per second An MT uses the transmit power that is inversely proportional to the received signal strength of pilots from all BSs An acknowledgment may not be received because of collisions or because the transmit power was low If no acknowledgement is received, a stronger access probe is transmitted

Communication Networks

**Open Loop Reverse Link Power Control in IS-95..This is continued a few times, and then the attempt is stopped after a maximum power level is reached Then the process is repeated after a back-off delay up to 15 attempts to obtain a traffic channelDisadvantages The assumption that the forward and reverse link characteristics are identical, Slow response times (30 ms), and Using the total power received from all BSs in calculating the required transmit power

Communication Networks

**Closed Loop Reverse Link Power Control in IS-95The inner-loop power control keeps the mobile as close to its target (Eb/It )setpoint as possible, whereas the outer-loop power control adjusts the base station target (Eb/It )setpoint for a given mobileInner-loop power control It enables changing the transmit power value in the MTOn the downlink traffic channel, a power control bit is transmitted every 1.25 ms (800 times per second) A zero bit indicates that the MT should increase its transmit power and a 1 that the MS should decrease its transmit powerEvery 1.25 ms, in the BS, the receiver determines the received Eb/It (the signal to interference ratio) If Eb/It is above a preset target, the MT is instructed to reduce its power by 1 dB and vise versa

Communication Networks

**Closed Loop Reverse Link Power Control in IS-95..Outer-loop power control

The target value in the base station controls the long-term frame error rateThe FER is not only linearly dependent on the Eb/It but is also a function of the velocity, fading, environmentThe target Eb/It is varied over time to reflect accurate valuesEb/It is reduced by a value of x dB every 20 ms if the FER is small enoughTypically, the value of 100x is 3 dB. The target value may be rapidly increased if the FER starts to increase

Communication Networks

**Inner- and outer-loop closed loop power control on the reverse link in IS-95

Communication Networks

**Forward Link Power Control in IS-95Power control on the forward link is employed to reduce intercell interferenceA mobile assisted power control is usedThe MTperiodically reports the FER to the BS station, which will then adjust its transmit power accordinglyMaximum and minimum transmit power values are preset to prevent excessive interference and to avoid allowing voice quality to drop respectively

Communication Networks