Digital compressed sound recorder
First Claim
1. Sound recorder, comprising an analog/digital converter, a memory for recording digital sound samples, and a microprocessor for particularly controlling reading, erasing, or entering said samples from/in the memory as well as changing the compression rate of the samples to be recorded in the memory, characterized in that it comprises two separate compression devices for compressing the samples coming from the analog/digital converter, the two devices operating on the basis of an equal number of samples taken per unit of time, the first device producing signals compressed at a first, lower, compression rate and the second device producing signals compressed at a second, higher, compression rate, the microprocessor comprising:
- first means for compressing by the first compression device digital incoming samples while using the lower compression rate, and for entering compressed samples in the memory as soon as their compression is fulfilled; and
second means for reading from the memory samples that have previously been entered, and applying the samples to the second compression device, so that they are compressed once again, this time at the higher compression rate, as a replacement of the less-compressed samples.
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Accused Products
Abstract
For saving memory space, the use of a sophisticated compressor is to be preferred to a simple reduction of the sampling frequency. However, for very high compression rates the total number of calculations is such that the compressor would no longer be capable of following the timing with which the samples arrive. Particularly in the case of a telephone/recorder where sound messages are received in separate call elements of limited duration, the invention consists of finally compressing once again samples that one has not been able to compress in real time at a sufficiently high compression rate.
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Citations
8 Claims
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1. Sound recorder, comprising an analog/digital converter, a memory for recording digital sound samples, and a microprocessor for particularly controlling reading, erasing, or entering said samples from/in the memory as well as changing the compression rate of the samples to be recorded in the memory, characterized in that it comprises two separate compression devices for compressing the samples coming from the analog/digital converter, the two devices operating on the basis of an equal number of samples taken per unit of time, the first device producing signals compressed at a first, lower, compression rate and the second device producing signals compressed at a second, higher, compression rate, the microprocessor comprising:
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first means for compressing by the first compression device digital incoming samples while using the lower compression rate, and for entering compressed samples in the memory as soon as their compression is fulfilled; and second means for reading from the memory samples that have previously been entered, and applying the samples to the second compression device, so that they are compressed once again, this time at the higher compression rate, as a replacement of the less-compressed samples. - View Dependent Claims (2, 3, 4, 5, 8)
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6. Method used in a sound recorder intended for sound messages received in separate elements, each of limited duration, the sound recorder comprising an analog/digital converter, a memory for recording digital sound samples, and a microprocessor for particularly controlling reading, erasing, or entering said samples from/in the memory as well as changing the compression rate of the samples to be recorded in the memory, characterized in that it comprises two separate compression devices for compressing the samples coming from the analog/digital converter, the two devices operating on the basis of an equal number of samples taken per unit of time, the first device producing signals compressed at a first, lower, compression rate and the second device producing signals compressed at a second, higher, compression rate, the microprocessor comprising:
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first means for compressing by the first compression device digital incoming samples while using the lower compression rate, and for entering compressed samples in the memory as soon as their compression is fulfilled; and second means for reading from the memory samples that have previously been entered, and applying the samples to the second compression device, so that they are compressed once again, this time at the higher compression rate, as a replacement of the less-compressed samples, the method being characterized in that, when a sound message is being received, the microprocessor utilizes the first means until the end of the running element has been received while the first compression device compresses incoming digital samples and enters them in the memory after which, when the current element has been recorded completely, it re-reads the element that has just been received and applies thereof the samples to the second compression device so that they are compressed at the higher compression rate, and it enters in the memory the samples of this element, compressed at the higher rate, by replacing less-compressed samples.
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7. Method used in a sound recorder intended for sound messages received in separate elements each of limited duration, the sound recorder comprising an analog/digital converter, a memory for recording digital sound samples, and a microprocessor for particularly controlling reading, erasing, or entering said samples from/in the memory as well as changing the compression rate of the samples to be recorded in the memory, characterized in that it comprises two separate compression devices for compressing the samples coming from the analog/digital converter, the two devices operating on the basis of an equal number of samples taken per unit of time, the first device producing signals compressed at a first, lower, compression rate and the second device producing signals compressed at a second, higher, compression rate, the microprocessor comprising;
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first means for compressing by the first compression device digital incoming samples while using the lower compression rate, and for entering compressed samples in the memory as soon as their compression is fulfilled; and second means for reading from the memory samples that have previously been entered, and applying the samples to the second compression device, so that they are compressed once again, this time at the higher compression rate, as a replacement of the less-compressed samples, the method being characterized in that the microprocessor utilizes the first means when the memory filling is lower than a given percentage, and when the memory filling exceeds said given percentage it waits until the end of the current element has been received and then controls all the samples previously contained in the memory to be taken again, and applied to the second compression device so that they are compressed once again, but at the higher compression rate and, finally, enters samples compressed the a higher rate in the memory while replacing less-compressed samples.
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Specification