Voice recording and playback mode using the G.726 half-rate...

Pulse or digital communications – Pulse code modulation – Differential

Reexamination Certificate

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Details

C375S219000, C455S411000, C455S412100, C455S413000

Reexamination Certificate

active

06256354

ABSTRACT:

TECHNICAL FIELD
The present invention relates to the field of wireless telecommunication. More specifically, the present invention relates to the field of communication devices within the personal handy phone system (PHS).
BACKGROUND ART
Within the field of wireless telecommunications systems, there exists a system referred to as the personal handy phone system, otherwise known as PHS. Within the personal handy phone system, a user of a portable or personal station (PS) device is capable of communicating with a user of another telecommunication device by way of a cell station (CS) device. Furthermore, the portable station within the personal handy phone system can also function as an answering machine by recording incoming voice/sound messages and then playing them back later at some desired time. Moreover, the portable station can also be equipped with the capability to record both sides of a conversation when it is being used to communicate with another telecommunication device.
In order for a manufacturer of portable stations to keep competitively priced within a commercial market, it is important for the manufacturer to minimize its manufacturing costs of the portable stations. There are several different ways to decrease the cost of manufacturing portable stations, which include utilizing less expensive components to produce the same functionality. Another way to decrease manufacturing costs is to limit the amount of integrated circuit chips (e.g., memory chips) installed within the portable stations to some minimum requirement. By utilizing the above mentioned techniques along with others, the manufactured portable stations are competitively priced when sold to the general public.
Since the amount of memory space within a portable station is limited, it is important to maximize the usage of available memory resources as much as possible. In order to maximize the usage of available memory space, it is important to focus on portable station functions that utilize a large amount of memory space. For instance, one memory demanding function performed by the portable station is the recording of received voice and sound signals. There are several prior art methods within the personal handy phone system to maximize memory space usage while a portable station is recording voice/sound signals. One prior art method is to store the received voice/sound signals in memory using the compressed data format in which they are received by the portable station, e.g., a full rate (32 kilobits-per-second) 4-bit adaptive differential pulse code modulation (ADPCM) compressed data format. The problem associated with this prior art solution is that the voice/sound signals in the full rate 4-bit ADPCM compressed data format occupy too much of the memory space located within the portable station.
Another prior art method to maximize the limited memory space contained within a portable station when it is functioning as a voice recorder is to use a digital signal processor (DSP) integrated circuit chip within the portable station to further compress the received voice/sound signals before storing them within memory. The problem associated with this prior art solution is that digital signal processor integrated circuit chips are very expensive components, which dramatically increase the manufacturing cost of a portable station. As described above, phone manufacturers desire to reduce the expense of the portable stations to remain competitive in this market.
Therefore, it would be advantageous to provide a cost effective system enabling a portable station within the personal handy phone system to record voice and sound signals while increasing its usage of its available memory space and subsequently playing the recorded messages back. The present invention provides these advantages.
DISCLOSURE OF THE INVENTION
The present invention includes a cost effective system enabling a portable station within the personal handy phone system (PHS) to record and playback recorded voice and sound signals at half rate adaptive differential pulse code modulation data format. When a portable station within the PHS operates as a voice recorder (e.g., functioning as an answering machine), a cost effective system in accordance with the present invention is adapted to compress and store received voice/sound signals in order to increase the usage of limited memory resources provided within the portable station. The present invention also enables previously compressed and stored voice/sound signals to be decompressed and played back in various portable station playback modes. Specifically, the portable station receives a voice/sound signal in a full rate (e.g., 32 kilobits-per-second) 4-bit adaptive differential pulse code modulation (ADPCM) data format in compliance with the International Telecommunication Union (ITU) recommendation G.726. The present invention compresses this received voice/sound signal to a half rate (16 kilobit-per-second) 2-bit ADPCM data format in compliance with the ITU recommendation G.726 in order to increase the usage of the limited memory resources provided within the portable station. During a playback mode of the portable station, the present invention decompresses the previously compressed and stored voice/sound signal to facilitate its playback.
One embodiment of the present invention is a circuit comprising a first receiving channel circuit coupled to receive a first incoming voice signal received by the portable station from a wireless interface. Furthermore, the first receiving channel circuit is for decoding the first incoming voice signal from a first data format to a second data format. The circuit further comprises a first transmitting channel circuit communicatively coupled to the first receiving channel circuit to receive the first incoming voice signal in the second data format and for encoding the first incoming voice signal from the second data format to a third data format. The circuit also comprises a memory device coupled to the transmitting channel circuit to receive the first incoming voice signal in the third data format and for storing the first incoming voice signal in the third data format. The third data format is a compression of the first data format.
Another embodiment of the present invention includes the circuit described above and further comprises a second receiving channel circuit coupled to the memory device to receive a first stored voice signal in the third data format and for decoding the first stored voice signal from the third data format to the second data format. The circuit further comprises a second transmitting channel circuit coupled to the second receiving channel circuit to receive the first stored voice signal in the second data format and for encoding the first stored voice signal from the second data format to the first data format. The first stored voice signal in the first data format is for transmitting over the wireless interface by the portable station.


REFERENCES:
patent: 5455579 (1995-10-01), Bennett et al.
patent: 5583915 (1996-12-01), Ishida
patent: 5790957 (1998-08-01), Heidari
patent: 5842123 (1998-11-01), Hamamoto et al.
patent: 6021325 (2000-02-01), Hall
“Personal Handy Phone System ARIB Standard”, Version 2, Dec. 26, 1995 Association of Radio Industries and Businesses (ARIB).
Takeshita et al., “Personal Handy-Phone System (PHS) Guidebook” Ministries of Posts and Telecommunications, Japan.

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