IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0760035
(2004-01-16)
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등록번호 |
US-8149825
(2012-04-03)
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발명자
/ 주소 |
- Kubler, Joseph J.
- Morris, Michael D.
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출원인 / 주소 |
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대리인 / 주소 |
Brinks Hofer Gilson & Lione
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인용정보 |
피인용 횟수 :
1 인용 특허 :
178 |
초록
▼
A packet-based, hierarchical communication system, arranged in a spanning tree configuration, is described in which wired and wireless communication networks exhibiting substantially different characteristics are employed in an overall scheme to link portable or mobile computing devices. The network
A packet-based, hierarchical communication system, arranged in a spanning tree configuration, is described in which wired and wireless communication networks exhibiting substantially different characteristics are employed in an overall scheme to link portable or mobile computing devices. The network accommodates real time voice transmission both through dedicated, scheduled bandwidth and through a packet-based routing within the confines and constraints of a data network. Conversion and call processing circuitry is also disclosed which enables access devices and personal computers to adapt voice information between analog voice stream and digital voice packet formats as proves necessary. Routing pathways include wireless spanning tree networks, wide area networks, telephone switching networks, internet, etc., in a manner virtually transparent to the user. A voice session and associate call setup simulates that of conventional telephone switching network, providing well-understood functionality common to any mobile, remote or stationary terminal, phone, computer, etc.
대표청구항
▼
1. A portable terminal device supporting voice communication via a wireless packet network, the portable terminal device comprising: a microphone for transducing sound into a first analog voice stream;at least one converter for converting the first analog voice stream to produce digital voice packet
1. A portable terminal device supporting voice communication via a wireless packet network, the portable terminal device comprising: a microphone for transducing sound into a first analog voice stream;at least one converter for converting the first analog voice stream to produce digital voice packets;a transmitter for transmitting, via the wireless packet network, the digital voice packets from the at least one converter;a receiver for receiving digital voice packets from a base station serving a plurality of portable terminal devices in the wireless packet network;the at least one converter for converting received digital voice packets to a second analog voice stream;a transducer for transducing the second analog voice stream into sound;wherein the transmitter is arranged to send, to a first remote system, a request for information identifying a second remote system accessible to the portable terminal device via the wireless packet network and operable to, at least, convert between digital voice packets of the portable terminal device and voice signals compatible with a public telephone network;wherein the receiver is arranged to receive the requested information;wherein the transmitter is arranged to send a message identifying a subscriber on the public telephone network, to the second remote system, to initiate a call connection through the second remote system to the subscriber on the public telephone network, using the requested information;wherein the receiver is arranged to receive a message indicating establishment of the call connection with the subscriber; andwherein the transmitter is arranged to communicate digital voice packets to the second remote system upon receipt, by the receiver, of the message indicating establishment of the call connection with the subscriber. 2. The portable terminal device of claim 1 wherein the wireless packet network communicates using an Internet protocol (IP). 3. The portable terminal device of claim 2 wherein the wireless packet network communicates using transmission control protocol (TCP) over Internet protocol (IP). 4. The portable terminal device of claim 1 wherein the wireless packet network communicates at a frequency of approximately 2.4 gigahertz. 5. The portable terminal device of claim 1 wherein the wireless packet network communicates using a frequency hopping spread spectrum technique. 6. The portable terminal device of claim 1 wherein the wireless packet network communicates using a direct sequence spread spectrum technique. 7. The portable terminal device of claim 1 wherein the at least one converter comprises: an analog to digital converter for converting the first analog voice stream to digital voice data; anda packetizer for assembling the digital voice data to produce digital voice packets. 8. The portable terminal device of claim 1 wherein the at least one converter comprises: a depacketizer for extracting digital voice data from received digital voice packets; anda digital to analog converter for converting the extracted digital voice data to produce the second analog voice stream. 9. The portable terminal device of claim 1 wherein the transmitter is arranged to communicate with the base station in each of a series of regular time intervals using bandwidth of a shared channel allocated by the base station in response to requests received from the plurality of portable terminal devices for each time interval. 10. The portable terminal device of claim 1 wherein the receiver is arranged to buffer the received digital voice packets for a certain period of time before conversion to the second analog voice stream. 11. The portable terminal device of claim 10 wherein the certain period of time is determined by the receiver after the call connection through the second remote system to the subscriber on the public telephone network is initiated, and before communication of digital voice packets to the second remote system begins. 12. The portable terminal device of claim 10 wherein the certain period of time is determined by the receiver during communication of digital voice packets with the second remote system. 13. The portable terminal device of claim 1 wherein the receiver provides routing pathways for voice communication to a user of the portable terminal device, using the received information identifying the second remote system. 14. One or more circuits for a portable terminal device supporting voice communication via a wireless packet network, the one or more circuits comprising: at least one converter for converting a first analog voice stream to produce digital voice packets;a transmitter for transmitting, via the wireless packet network, the digital voice packets from the at least one converter;a receiver for receiving digital voice packets from a base station serving a plurality of portable terminal devices in the wireless packet network;the at least one converter for converting received digital voice packets to a second analog voice stream;wherein the transmitter is arranged to send, to a first remote system, a request for information identifying a second remote system accessible to the portable terminal device via the wireless packet network and operable to, at least, convert between digital voice packets of the portable terminal device and voice signals compatible with a public telephone network;wherein the receiver is arranged to receive the requested information;wherein the transmitter is arranged to send a message identifying a subscriber on the public telephone network, to the second remote system, to initiate a call connection through the second remote system to the subscriber on the public telephone network, using the requested information;wherein the receiver is arranged to receive a message indicating establishment of the call connection with the subscriber; andwherein the transmitter is arranged to communicate digital voice packets to the second remote system upon receipt, by the receiver, of the message indicating establishment of the call connection with the subscriber. 15. The one or more circuits of claim 14 wherein the wireless packet network communicates at a frequency of approximately 2.4 igahertz. 16. The one or more circuits of claim 14 wherein the wireless packet network communicates using an Internet protocol. 17. The one or more circuits of claim 14 wherein the wireless packet network communicates using transmission control protocol (TCP) over Internet protocol (IP). 18. The one or more circuits of claim 14 further comprising: a microphone for transducing sound into the first analog voice stream. 19. The one or more circuits of claim 14 further comprising: a transducer for converting the second analog voice stream into sound. 20. The one or more circuits of claim 14 further comprising: a keypad for receiving user input. 21. The one or more circuits of claim 14 further comprising: a display device to provide visual feedback to a user. 22. The one or more circuits of claim 14 wherein the transmitter is arranged to communicate with the base station in each of a series of regular time intervals using bandwidth of a shared channel allocated by the base station in response to requests received from the plurality of portable terminal devices for each time interval. 23. The one or more circuits of claim 14 wherein the receiver is arranged to buffer the received digital voice packets for a certain period of time before conversion to the second analog voice stream. 24. The one or more circuits of claim 23 wherein the certain period of time is determined by the receiver after the call connection through the second remote system to the subscriber on the public telephone network is initiated, and before communication of digital voice packets to the second remote system begins. 25. The one or more circuits of claim 23 wherein the certain period of time is determined by the receiver during communication of digital voice packets with the second remote system. 26. The one or more circuits of claim 14 wherein the receiver provides routing pathways for voice communication to a user of the portable terminal device, using the received information identifying the second remote system. 27. A method of operating a portable terminal device for supporting voice communication via a wireless packet network, the method comprising: transmitting, to a first remote system from the portable terminal device via the wireless packet network, a request for information identifying a second remote system accessible to the portable terminal device via the wireless packet network and operable to, at least, convert between digital voice packets of the portable terminal device and voice signals compatible with a public telephone network;upon receiving the requested information, sending a message identifying a subscriber on the public telephone network, to the second remote system, to initiate a call connection through the second remote system to the subscriber on the public telephone network, using the requested information;evaluating a message wirelessly received from the wireless packet network;sending an indication of a data rate based upon the evaluation;receiving digital voice packets via the wireless packet network at a data rate;initiating conversion of the received digital voice packets to produce sound;enabling conversion of sound to digitized voice information;creating digital voice packets from the digitized voice information; andupon receiving a message indicating establishment of a call connection with the subscriber, begin sending the created digital voice packets to the second remote system via the wireless packet network. 28. The method of claim 27 wherein the wireless packet network communicates at a frequency of approximately 2.4 gigahertz. 29. The method of claim 27 wherein the wireless packet network communicates using a frequency hopping spread spectrum technique. 30. The method of claim 27 wherein the wireless packet network communicates using a direct sequence spread spectrum technique. 31. The method of claim 27 wherein the wireless packet network communicates using an Internet protocol. 32. The method of claim 31 wherein the wireless packet network communicates using transmission control protocol (TCP) over Internet protocol (IP). 33. The method of claim 27 wherein the evaluation evaluates reception of a message received periodically via the wireless packet network. 34. The method of claim 33 wherein the message received periodically is a polling message. 35. The method of claim 27 wherein the evaluation evaluates reception of a message preamble. 36. The method of claim 27 wherein the portable terminal device communicates with a base station in each of a series of regular time intervals using bandwidth of a shared channel allocated by the base station in response to requests received from a plurality of portable terminal devices for each time interval. 37. The method of claim 27 wherein the portable terminal device buffers the received digital voice packets for a certain period of time before conversion to a signal representative of sound. 38. The method of claim 37 wherein the certain period of time is determined by the portable terminal device after initiating the call connection through the second remote system to the subscriber on the public telephone network, and before communication of digital voice packets to the second remote system begins. 39. The method of claim 37 wherein the certain period of time is determined by the portable terminal device during communication of digital voice packets with the second remote system. 40. The method of claim 27 wherein the portable terminal device offers routing pathways for voice communication to a user of the portable terminal device, using the received information identifying the second remote system. 41. A system for use in a portable terminal device supporting voice communication via a wireless packet network the system comprising: at least one processor arranged to communicate over the wireless packet network, the at least one processor operable to, at least: transmit, to a first remote system via the wireless packet network, a request for information identifying a second remote system accessible to the at least one processor via the wireless packet network and operable to, at least, convert between digital voice packets of the portable terminal device and voice signals compatible with a public telephone network;upon receiving the requested information, send a message identifying a subscriber on the public telephone network, to the second remote system, to initiate a call connection through the second remote system to the subscriber on the public telephone network, using the requested information;evaluate a message wirelessly received from the wireless packet network;send an indication of a data rate based upon the evaluation;receive digital voice packets via the wireless packet network at a data rate;initiate conversion of the received digital voice packets to produce sound;enable conversion of sound to digitized voice information;create digital voice packets from the digitized voice information; andupon receiving a message indicating establishment of a call connection with the subscriber, begin sending the created digital voice packets to the second remote system, via the wireless packet network. 42. The system of claim 41 wherein the wireless packet network communicates at a frequency of approximately 2.4 gigahertz. 43. The system of claim 41 wherein the wireless packet network communicates using a frequency hopping spread spectrum technique. 44. The system of claim 41 wherein the wireless packet network communicates using a direct sequence spread spectrum technique. 45. The system of claim 41 wherein the wireless packet network communicates using an Internet protocol. 46. The system of claim 45 wherein the wireless packet network communicates using transmission control protocol (TCP) over Internet protocol (IP). 47. The system of claim 41 wherein the evaluated message is received periodically via the wireless packet network. 48. The system of claim 47 wherein the message received periodically is a polling message. 49. The system of claim 41 wherein the evaluating evaluates reception of a message preamble. 50. The system of claim 41 wherein the at least one processor is arranged to communicate a base station in each of a series of regular time intervals using bandwidth of a shared channel allocated by the base station in response to requests received from a plurality of portable terminal devices for each time interval. 51. The system of claim 41 wherein the at least one processor is arranged to buffer the received digital voice packets for a certain period of time before conversion to a signal representative of sound. 52. The system of claim 51 wherein the certain period of time is determined by the at least one processor after the call connection through the second remote system to the subscriber on the public telephone network is initiated, and before communication of digital voice packets to the second remote system begins. 53. The system of claim 51 wherein the certain period of time is determined by the at least one processor during communication of digital voice packets with the second remote system. 54. The system of claim 41 wherein the at least one processor provides routing pathways for voice communication to a user of the portable terminal device, using the received information identifying the second remote system.
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