IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0024243
(2004-12-28)
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발명자
/ 주소 |
- Rudakevych,Pavlo E.
- Ciholas,Mike E.
- Pack,Robert T.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
28 인용 특허 :
13 |
초록
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The present invention is directed to a remote digital firing system for firing of a remote mission payload that includes a firing circuit communicatively coupled to and operative to fire the remote mission payload, a firing control panel communicatively linked to said firing circuit, and a digital c
The present invention is directed to a remote digital firing system for firing of a remote mission payload that includes a firing circuit communicatively coupled to and operative to fire the remote mission payload, a firing control panel communicatively linked to said firing circuit, and a digital code plug configured to be integrated in communicative combination with said firing circuit and said firing control panel, wherein said firing circuit is operative, with said digital code plug integrated in communicative combination therewith, to generate and write one-time random session variables to said digital code plug and to simultaneously store said one-time random session variables internally in said firing circuit; wherein said firing control panel is operative, with said digital code plug integrated in communicative combination therewith, to generate and transmit messages having said one-time random session variable embodied therein to said firing circuit; and wherein said firing circuit validates said messages by comparing said one-time random session variables embodied in said messages with said internally stored one-time random session variables prior to firing the remote mission payload.
대표청구항
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What is claimed is: 1. A remote digital firing system for firing a remote mission payload, the remote digital firing system comprising: a firing circuit communicatively coupled to and operative to fire the remote mission payload; a firing control panel communicatively linked to the firing circuit;
What is claimed is: 1. A remote digital firing system for firing a remote mission payload, the remote digital firing system comprising: a firing circuit communicatively coupled to and operative to fire the remote mission payload; a firing control panel communicatively linked to the firing circuit; and a digital code plug configured to be integrated in communicative combination with the firing circuit and the firing control panel; wherein the firing circuit is operative, with the digital code plug integrated in communicative combination therewith, to generate and write one-time random session variables to the digital code plug and to simultaneously store the one-time random session variables internally in the firing circuit; wherein the firing control panel is operative, with the digital code plug integrated in communicative combination therewith, to generate and transmit messages having the one-time random session variables embodied therein to the firing circuit; wherein the firing circuit validates the messages by comparing the one-time random session variables embodied in the messages with the internally stored one-time random session variables prior to firing the remote mission payload; and wherein the one-time random session variables includes a SAFE/DISARM code for disarming the firing circuit. 2. The remote digital firing system of claim 1 wherein the firing control panel is automatically operative when the digital code plug is integrated in communicative combination therewith to generate and transmit a SAFE/DISARM command message embodying the SAFE/DISARM code to the firing circuit to disable the firing circuit. 3. The remote digital firing system of claim 2 wherein the one-time session variables include a rolling code sequence that is embodied in the SAFE/DISARM command message. 4. A remote digital firing system for firing a remote mission payload, the remote digital firing system comprising: a firing circuit communicatively coupled to and operative to fire the remote mission payload; a firing control panel communicatively linked to the firing circuit; and a digital code plug configured to be integrated in communicative combination with the firing circuit and the firing control panel; wherein the firing circuit is operative, with the digital code plug integrated in communicative combination therewith, to generate and write one-time random session variables to the digital code plug and to simultaneously store the one-time random session variables internally in the firing circuit; wherein the firing control panel is operative, with the digital code plug integrated in communicative combination therewith, to generate and transmit messages having the one-time random session variables embodied therein to the firing circuit; wherein the firing circuit validates the messages by comparing the one-time random session variables embodied in the messages with the internally stored one-time random session variables prior to firing the remote mission payload; and wherein the one-time session variables includes an encryption key. 5. The remote digital firing system of claim 4 wherein the firing control panel includes an encryption algorithm that uses the encryption key to encrypt selected ones of the messages transmitted to the firing circuit; and wherein the firing circuit includes a decryption algorithm that uses the encryption key to decrypt the selected messages encrypted by the firing control panel. 6. The remote digital firing system of claim 5 wherein the firing circuit uses the decryption algorithm and the encryption key to encrypt messages transmitted thereby in response to the selected encrypted messages from the firing control panel; and wherein the firing control panel uses the encryption algorithm and the encryption key to decrypt the encrypted messages transmitted by the firing circuit. 7. A remote digital firing system for firing a remote mission payload, the remote digital firing system comprising: a firing circuit communicatively coupled to and operative to fire the remote mission payload; a firing control panel communicatively linked to the firing circuit; and a digital code plug configured to be integrated in communicative combination with the firing circuit and the firing control panel; wherein: the firing circuit is operative, with the digital code plug integrated in communicative combination therewith, to generate and write one-time random session variables to the digital code plug and to simultaneously store the one-time random session variables internally in the firing circuit; the firing control panel is operative, with the digital code plug integrated in communicative combination therewith, to generate and transmit messages having the one-time random session variables embodied therein to the firing circuit; the firing circuit validates the messages by comparing the one-time random session variables embodied in the messages with the internally stored one-time random session variables prior to firing the remote mission payload; a predefined communication protocol defines the types, formats, contents, cryptographic requirements, and sequencing of messages transmitted by the firing control panel to the firing circuit and the messages transmitted by said firing circuit to said firing control panel; the types of messages transmitted between the firing control panel and the firing circuit include status messages, request-challenge messages, command messages, and verification messages; the format of the request-challenge messages, command messages, and verification messages includes a message-originator identification character, one or more characters for specifically identifying each of the request-challenge messages, command messages, and verification messages, and a data block; the one-time session variables include an encryption key; and the firing control panel includes an encryption algorithm that uses the encryption key to encrypt the data block; and the firing circuit includes a decryption algorithm that uses the encryption key to decrypt the data blocks encrypted by the firing control panel. 8. A firing circuit for a remote digital firing system that includes a firing control panel and a digital code plug, the firing circuit comprising: a microcontroller that includes a modifiable, read-only memory module, an application module for storing instruction sets to control the operation of the microcontroller, an input/output interface for communicating with the firing control panel, an output interface integrating the digital code plug in communicative combination with the firing circuit; a hardware random noise generator for generating and writing a one-time random encryption key and session codes to the digital code plug when integrated in communicative combination with the firing circuit and simultaneously writing the one-time random encryption key and session codes to the modifiable, read-only memory module; an address line decoder connected to the microcontroller; an arming stage connected to the address line decoder; a power bus connected to the arming stage; an output regulator connected to the arming stage; first and second firing stages connected to the address line decoder; and first and second output relays connected to the first and second firing stages, respectively, the first and second output relays defining dual output lines; wherein the address line decoder is operative in response to a first signal from the microcontroller to selectively enable the arming stage so that the output regulator is electrically coupled to the power bus; wherein the address line decoder is operative in response to a second signal from the microcontroller to selectively enable the first and second firing stages, which energizes the first and second output relays, respectively, to electrically couple the dual output lines to the output regulator; and wherein the microcontroller is operative to transmit a third signal to enable the output regulator subsequent to energization of the first and second output relays to complete the electrical circuit between the power bus and the dual output lines. 9. The firing circuit of claim 8 wherein: the arming stage comprises a first field effect transistor and a capacitive pumping subcircuit electrically coupled thereto and a second field effect transistor and a capacitive pumping circuit electrically coupled thereto, and wherein the first field effect transistor is serially connected to the second field effect transistor, the first field effect transistor is electrically connected to the output regulator, the second field effect transistor is electrically connected to the power bus, and the capacitive pumping subcircuits are electrically connected to the address line decoder; the first firing stage comprises a first field effect transistor and a capacitive pumping subcircuit electrically coupled thereto and a second field effect transistor and a capacitive pumping circuit electrically coupled thereto, and wherein the first field effect transistor is serially connected to the second field effect transistor, the first field effect transistor is electrically connected to ground, the second field effect transistor is electrically connected to the first output relay, and the capacitive pumping subcircuits are electrically connected to the address line decoder; and the second firing stage comprises a first field effect transistor and a capacitive pumping subcircuit electrically coupled thereto and a second field effect transistor and a capacitive pumping circuit electrically coupled thereto, and wherein the first field effect transistor is serially connected to the second field effect transistor, the first field effect transistor is electrically connected to ground, the second field effect transistor is electrically connected to the second output relay, and the capacitive pumping subcircuits are electrically connected to the address line decoder; wherein the address line decoder is operable to selectively enable the first and second field effect transistors of the arming stage and the first and second firing stages by means of a narrow band, pulsed signal transmitted to the respective capacitive pumping subcircuits.
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