Abstract:
Techniques for synchronizing wakeup intervals are disclosed. In one example, a first access terminal that has both Bluetooth and Wi-Fi capabilities may include a communication controller that when the first access terminal detects that WLAN connectivity is turned ON, the communication controller adjusts the sniff anchor point for Bluetooth connectivity such that the sniff anchor points are aligned with the WLAN beacon intervals. In another example, the first access terminal has the WLAN connectivity turned ON and connected to an access point before a Bluetooth connection to a second access terminal is established. The communication controller may set the Bluetooth sniff interval and sniff anchor points such that they are in multiple of the beacon interval.
Abstract:
An example using the Bluetooth protocol may include a dynamic MTU adjustment for reduction of the probability of handshake collision and credit processing. This may also include making the Tx MTU a non-multiple of the number of remote Rx credits and adjusting the Tx MTU to a value that lets CONTINUE come before or after Credits without overlapping and prevents underflow situations. Another example may include periodically pacing the low priority traffic even during an underflow condition, thereby balancing the speed. Still another example may balance the frequency speeds, and thereby balancing power by controlling the processor load during unwanted waiting situations, and indirectly control unwanted Multiprocessor Frequency jump decision that may happen for low priority traffic conditions.