System for automating tuning hands-free systems

What is claimed is: 1. A method that automates the tuning of a hands-free system, the hands-free system having a first loudspeaker and first microphone, the method comprising: playing one or more test signals that vary in frequency and in amplitude out of the hands-free system and out of a hands-free tuning system, the hands-free tuning system including a second microphone and second loudspeaker; recording the responses of the hands-free tuning system to test signals emitted from the first loudspeaker at the second microphone, and recording responses of the hands-free system to test signals emitted from the second loudspeaker at the first microphone; measuring the sound generation and sound pickup characteristics of the hands-free tuning system with respect to the one or more of the test signals and one or more of the second microphone signals, wherein measuring includes determining one or more levels of the responses at the second microphone; measuring the sound generation and sound pickup characteristics of the hands-free system under test with respect to the one or more of the test signals and one or more of the first microphone signals, wherein measuring includes determining one or more levels of the responses at the first microphone; calculating a plurality of tunable parameters of the hands-free system under test, wherein calculating includes comparing the one or more levels to target levels, adjusting a send automatic gain parameter based on a difference between the one or more levels and the target levels at the first microphone, and adjusting a receive automatic gain parameter based on a difference between the one or more levels and the target level at the second microphone; and updating a hands-free system library with the calculated plurality of tunable parameters; wherein the hands-free library is remote from the hands-free tuning system but utilized by the hands-free tuning system during operation. 2. The method of claim 1 wherein the playing of one or more test signals that vary in frequency and in amplitude out of a hands-free system comprises injecting these signals into a telephone/network simulator. 3. The method of claim 1 further comprising tuning a multiband compressor with one or more of the plurality of tunable parameters. 4. The method of claim 1 further comprising tuning an equalization curve of a receiving channel with one or more of the plurality of tunable parameters. 5. The method of claim 1 wherein the calculating of the plurality of tunable parameters of the hands-free system under test occurs at the same rate as the process measures the sound generation and sound pickup characteristics of the hands-free system. 6. The method of claim 1 further comprising comparing the selected sound generation and sound pickup characteristics of the hands-free system under test to a predetermined threshold and generating a status signal that indicates a clipping condition, a saturation condition, an aliasing condition, a distortion condition, a noise floor condition, a latency condition or a packet dropout condition. 7. A non-transitory machine-readable medium encoded with machine-executable instructions executable by a processor, where execution of the machine-executable instructions by a processor is to cause the processor to: play one or more test signals that vary in frequency and in amplitude out of a hands-free system under test and out of a hands-free tuning system, the hands-free system having a first loudspeaker and first microphone, the hands-free tuning system including a second microphone and second loudspeaker; record the responses of the hands-free tuning system to test signals emitted from the first loudspeaker at the second microphone and recording responses of the hands-free system to test signals emitted from the second loudspeaker at the first microphone; measure the sound generation and sound pickup characteristics of the hands-free tuning system with respect to the one or more of the test signals and one or more of the second microphone signals, wherein measuring includes determining one or more levels of the responses at the second microphone; measure the sound generation and sound pickup characteristics of the hands-free tuning system with respect to the one or more of the test signals and one or more of the first microphone signals, wherein measuring includes determining one or more levels of the responses at the first microphone; calculate a plurality of tunable parameters by comparing the one or more levels to target levels, adjusting a send automatic gain parameter based on a difference between the one or more levels and the target levels at the first microphone, and adjusting a receive automatic gain parameter based on a difference between the one or more levels and the target level at the second microphone; and update a hands-free system library with the calculated plurality of tunable parameters; wherein the hands-free library is remote from the hands-free tuning system. 8. The non-transitory machine-readable medium of claim 7 wherein the instructions that play one or more test signals that vary in frequency and in amplitude out of a hands-free system comprises injecting these signals into a telephone/network simulator. 9. The non-transitory machine-readable medium of claim 7 wherein the instructions that record the responses of the hands-free tuning system or the hands-free tuning system at the second microphone of the hands-free tuning system and the first microphone of the hands-free system comprises recording the responses at a telephone/network simulator. 10. The non-transitory machine-readable medium of claim 7 wherein the instructions further tune a multiband compressor with one or more of the plurality of tunable parameters. 11. A hands-free tuning system for automatically tuning a hands-free system, the hands-free system having a first loudspeaker and first microphone, the hands-free tuning system comprising: a second microphone; a second loudspeaker; a processor coupled to the second microphone and the second loudspeaker, and to the first loudspeaker and the first microphone; a memory storing processor executable instructions that, when executed, are to cause the processor to: play one or more test signals that vary in frequency and in amplitude out of a hands-free system under test and out of a hands-free tuning system, the hands-free system having a first loudspeaker and first microphone, the hands-free tuning system including a second microphone and second loudspeaker; record the responses of the hands-free tuning system to test signals emitted from the first loudspeaker at the second microphone and recording responses of the hands-free system to test signals emitted from the second loudspeaker at the first microphone; measure the sound generation and sound pickup characteristics of the hands-free tuning system with respect to the one or more of the test signals and one or more of the second microphone signals, wherein measuring includes determining one or more levels of the responses at the second microphone; measure the sound generation and sound pickup characteristics of the hands-free tuning system with respect to the one or more of the test signals and one or more of the first microphone signals, wherein measuring includes determining one or more levels of the responses at the first microphone; calculate a plurality of tunable parameters by comparing the one or more levels to target levels, adjusting a send automatic gain parameter based on a difference between the one or more levels and the target levels at the first microphone, and adjusting a receive automatic gain parameter based on a difference between the one or