RU2003107071A - MULTI BROADCASTING LIMITED BY A TEMPORARY WINDOW FOR FUTURE DELIVERY OF MULTI BROADCASTING - Google Patents

Claims (68)

1. A method for the fair distribution of an event over a network environment to at least two clients, this event containing information that should be published at a predetermined time of publication, this method comprises the steps of: sending an encrypted event from the sending server to at least two clients before the time of publication, and send the decryption key from the key server (key server) to at least two clients after the time of publication. 2. The method according to claim 1, in which the decryption key is sent immediately after the time of publication. 3. The method of claim 1, wherein the decryption key is sent after all of the at least two clients have finished receiving the encrypted event. 4. The method according to claim 1, in which the event must be published before a predetermined final time, and in which the decryption key is sent before all of the at least two clients complete the receipt of the encrypted event, if all of the at least two clients complete receiving an encrypted event after the last time the key was sent, and the last time the key was sent is separated from the final time by such a time that allows you to transfer the key to all of at least two clients. 5. The method according to claim 1, further comprising the steps of: sending an unencrypted event from the sending server to the highly reliable cross-border server before the time of publication, the highly reliable cross-border server being a server that is located in the exchange path between the sending server and the connected client, and you can trust that he will not publish the information until the appropriate time, and send an unencrypted event to the second client at the time of departure to the second client, and the time of departure to the second the client allows the second client to receive the unencrypted event at about the same time that the decryption key is received by at least two clients. 6. The method according to claim 5, further comprising the step of: sending an unencrypted event to the third client at the time of sending to the third client, the time of sending to the third client allowing the third client to receive the unencrypted event at about the same time that the decryption key is received at least two customers. 7. The method according to claim 5, in which the time point of departure to the second client allows the second client or third client, whichever of them is expected to be accepted first, to receive an unencrypted event at about the same time that the decryption key is received by by at least two clients, this method further comprises the step of sending an unencrypted event to the third client at the time of sending to the second client. 8. The method according to claim 1, in which the key server contains two or more key servers. 9. The method of claim 1, wherein the decryption key is sent at a coordinated key sending time, in which the coordinated key sending time is determined when all clients in the network environment receive an encrypted event. 10. The method according to claim 1, wherein sending the decryption key includes multicasting a key message containing at least one copy of the decryption key. 11. A method for equitably distributing an event in a network environment to a first client, the event containing information that should be published at a predetermined time of publication, this method comprises the steps of: sending an encrypted event from a sending server to a highly reliable cross-border server, the highly reliable cross-border server being the server that is located on the exchange path between the sending server and the connected client, and which you can trust that it will not publish information to the appropriate Currently, the encrypted event is decrypted in the highly reliable cross-border server, and the decrypted event is sent from the highly reliable cross-border server to the first client at the time of sending to the first client, and the time of sending to the first client is a function of the first expected time of transmission of the decrypted event to the first client and arrival time to the first to the client, when the first client receives the decrypted event, and the time of arrival at the first client is after time publication. 12. The method according to claim 11, in which the first expected transmission time is determined by referring to the connection history between the highly reliable cross-border server and the first client. 13. The method according to claim 11, in which the first expected transmission time is determined by accessing the test results using the network functionality of the delay time of the connection with the first client between the highly reliable cross-border server and the first client. 14. The method according to claim 11, in which the time of arrival to the first customer is the time of publication. 15. The method according to claim 11, further comprising the step of: sending a decrypted event from a highly reliable cross-border server to the second client at the time of sending to the second client, the time of sending to the second client being a function of the second expected time of transmission of the decrypted event to the second client and the arrival time to the second client when the second client receives the decrypted event, and the time of arrival at the second client is after the time of publication. 16. The method according to clause 15, in which the point in time of departure to the first client is the time of departure to the second client. 17. The method according to clause 15, in which the time of arrival to the first client is the time of arrival to the second client. 18. The method according to claim 11, in which the time of arrival to the first client is approximately identical to the time of reception of the key by the second client, this method further comprises the steps of: send an encrypted event from the sending server to the second client before the publication time, and send the decryption key from the key server the second client after the time of publication, and the second client receives the decryption key at the time of receipt of the key by the second client. 19. A method for fairly distributing an event over a network environment to at least two clients, this method comprises the steps of: sending an encrypted event to at least two clients, and sending a decryption key to at least two clients after all of at least two clients have accepted encrypted event. 20. The method according to claim 19, further comprising the steps of: sending an unencrypted event to a highly reliable cross-border server, the highly reliable cross-border server being a server in a network environment that you can trust that it will not publish information before the appropriate time, and send the unencrypted event to the second client at the time the time of departure to the second client, and the point in time of departure to the second client allows the second client to receive an unencrypted event at about the same time that the key eshifrovaniya received at least two clients. 21. The method according to claim 19, further comprising the steps of: sending an encrypted message to a highly reliable cross-border server, the highly reliable cross-border server being a server in a network environment that you can trust that it will not publish information before the appropriate time, decrypt the encrypted event in a highly reliable cross-border server, and send the decrypted event from the highly reliable cross-border server to the second client at the time of departure to the second client, and the time of departure of the second The second client is a function of the second expected time of transmission of the decrypted event to the second client and the time of arrival to the second client, when the second client receives the decrypted event, and the time of arrival to the second client is approximately the same time when the decryption key is received by at least two by customers. 22. The method according to item 21, in which the second expected transmission time is determined by referring to the connection history between the highly reliable cross-border server and the second client. 23. The method according to item 21, in which the second expected transmission time is determined by accessing the test result using the network functionality of the delay time of the connection with the second client between the highly reliable cross-border server and the second client. 24. A computer-readable medium containing computer-executable instructions for distributing events fairly across a network environment to at least two clients, the event containing information that should be published at a predetermined time of publication, computer-executable instructions contain instructions for completing the steps: send an encrypted event from the sending server to at least two clients before the time of publication, and send the decryption key from the key server to at least two customers after the time of publication. 25. The computer-readable medium of claim 24, wherein the decryption key is sent after at least two clients have finished receiving the encrypted event. 26. The computer-readable medium of claim 24, wherein the computer-executable instructions further comprise instructions for performing the steps of: sending an unencrypted event from the sending server to the highly reliable cross-border server before the time of publication, the highly reliable cross-border server being the server that is located on the exchange path between the sending server and a connected client, which you can trust that it will not publish information until the appropriate time, and send an unencrypted event t rum customer at the time of departure to the second client, and send time allows the second client to the second client to accept unencrypted event at about the same time as the decryption key is received by at least two clients. 27. The computer-readable medium of claim 26, wherein the computer-executable instructions further comprise instructions for performing the step of: sending an unencrypted event to the third client at the time of departure to the third client, the time of sending to the third client allowing the third client to receive the unencrypted event at approximately the same the time when the decryption key is accepted by at least two clients. 28. The computer-readable medium of claim 26, wherein the time point of departure to the second client allows the second client or third client to receive an unencrypted event, whoever is expected to not receive it first, at about the same time that the decryption key is received by by at least two clients, computer-executed instructions additionally contain instructions for performing the step: send an unencrypted event to the third client at the time of sending to the second client. 29. The computer-readable medium of claim 24, wherein the key server contains two or more key servers. 30. The computer-readable medium of claim 24, wherein the decryption key is sent at a coordinated key sending time, wherein the coordinated key sending time is based on the point in time when all clients in the network environment received an encrypted event. 31. A computer-readable medium containing computer-executable instructions for distributing the event fairly across the network environment to the first client, the event containing information that should be published at a predetermined publication time, computer-executable instructions contain instructions for completing the steps: send an encrypted event from the sending server to the highly reliable a cross-border server, and a highly reliable cross-border server is a server that is located on the exchange path between the sending server and the connected client, which you can trust that it will not publish information before the appropriate time, decrypt the encrypted event in the highly reliable cross-border server, and send the decrypted event from the highly reliable cross-border server to the first client at the time of sending to the first client, and the time of sending to the first to the client is a function of the first expected time of transmission of the decrypted event to the first client and the time of arrival at the first client that, when the first client receives the decrypted event, and the time of arrival time to the first customer is a point in time after the publication time. 32. The computer-readable medium of claim 31, wherein the first expected transmission time is determined by referring to a connection history between the highly reliable cross-border server and the first client. 33. The computer-readable medium of claim 31, wherein the first expected transmission time is determined by accessing a test result using network functionality of a first time delay in connecting to a client between a highly reliable cross-border server and the first client. 34. The computer-readable medium of claim 31, wherein the computer-executable instructions further comprise instructions for performing the step of: sending a decrypted event from a highly reliable cross-border server to the second client at the time of departure to the second client, wherein the time of departure to the second client is a function of the second expected transmission time the decrypted event to the second client and the time of arrival to the second client, when the second client receives the decrypted event, and the time arrival to the second customer is the moment that is after the time of publication. 35. The computer-readable medium of claim 34, wherein the point in time of departure to the first client is the point in time of departure to the second client. 36. The computer-readable medium of claim 34, wherein the time of arrival at the first customer is the time of arrival at the second customer. 37. The computer-readable medium of claim 31, wherein the time of arrival at the first client is approximately identical to the time of receipt of the key by the second client, and in which the computer-executable instructions further comprise instructions for completing the steps: send an encrypted event from the sending server to the second client before publication, and send the decryption key from the key server to the second client after the publication time, and the second client receives the decryption key at the time of receiving the key torym client. 38. A computer-readable medium containing computer-executable instructions for distributing events fairly across a network environment to at least two clients, computer-executable media instructions for performing steps: send an encrypted event to at least two clients, and send an encryption key to at least two clients after all of at least two clients have accepted the encrypted event. 39. The computer-readable medium of claim 38, wherein the computer-executable instructions further comprise instructions for performing the steps of: sending an encrypted event to a highly reliable cross-border server, the highly reliable cross-border server being such a server in a network environment that you can trust that it will not publish information until time, decrypt the encrypted event in the highly reliable cross-border server, and send the decrypted event from the highly reliable cross-border server the client at the time of departure to the second client, and the time of departure to the second client is a function of the second expected time of transmission of the decrypted event to the second client and the time of arrival to the second client, when the second client receives the decrypted event, and the time of arrival to the second client is approximately that at the same time, when the decryption key is accepted by at least two clients. 40. A fair distribution system for an event, this event containing information that should be published at a predetermined time of publication, this system contains a sending server, a highly reliable cross-border server, and a highly reliable cross-border server is a server that is located on the exchange path between the sending server and the connected client , and which you can trust that it will not publish information until the appropriate time, the key server (key server), and at least two ienta, the sending server sends an encrypted event at least two clients prior to publication of the time, and the key server sends a decryption key for at least two clients after the publication time. 41. The system of claim 40, wherein the key server sends the decryption key after all of the at least two clients have finished receiving the encrypted event. 42. The system of claim 40, further comprising a second client, in which the sending server sends an unencrypted event to the highly reliable cross-border server, and the highly reliable cross-border server sends the unencrypted event to the second client at the time of sending to the second client, and the time of sending to the second client allows the second client to accept an unencrypted event at about the same time that the decryption key is received by at least two clients. 43. The system of claim 40, wherein the sending server sends an encrypted event to at least two clients, comprising a sending server that sends an unencrypted event to a highly reliable cross-border server, a highly reliable cross-border server encrypts an unencrypted event, and a highly reliable cross-border server sends an encrypted event two customers. 44. The system of claim 40, wherein the key server sends the decryption key at a coordinated key sending time, wherein the coordinated key sending time is based on a point in time when at least two clients receive an encrypted event. 45. The system of claim 40, further comprising a second client in which the sending server sends the encrypted event to the highly reliable cross-border server, the key server sends the decryption key to the highly reliable cross-border server, the highly reliable cross-border server decrypts the encrypted event, and the highly reliable cross-border server sends the decrypted event to the second client at the time the time of departure to the second client, and the point in time of departure to the second client allows the second client to accept the decrypted event at about the same time that the decryption key is received by at least two clients. 46. The system of claim 40, wherein the key server multicasts a key message containing at least one copy of the decryption key. 47. An equitable event distribution system, this event containing information that should be published at a predetermined time of publication, this system contains a sending server, a highly reliable cross-border server, and a highly reliable cross-border server is such a server that is located on the exchange path between the sending server and the connected a client, and whom you can trust that he will not publish information until the appropriate time, and the first client, moreover, highly reliable The primary server sends an unencrypted event to the first client at the time of sending to the first client, and the time of sending to the first client is a function of the first expected time of transmission of the decrypted event to the first client and the time of arrival at the first client, when the first client receives the decrypted event, and the time of arrival at the first customer is after the time of publication. 48. The system of claim 47, further comprising a second client, in which the sending server sends the encrypted event to the highly reliable cross-border server, the highly reliable cross-border server decrypts the encrypted event, and the highly reliable cross-border server sends the decrypted event to the second client so that the second client receives the decrypted event approximately at the time of arrival to the first customer. 49. The system according to clause 47, in which the first expected transmission time is determined by referring to the connection history between the highly reliable cross-border server and the first client. 50. The system according to clause 47, in which the first expected transmission time is determined by accessing the test result using the network functionality of the delay time of the first client between a highly reliable cross-border server and the first client. 51. The system of claim 47, wherein the highly reliable cross-border server sends an unencrypted event to the second client at the time of departure to the second client, wherein the time of departure to the second client is a function of the second expected time of transmission of the unencrypted event to the second client and the time of arrival to the second client when the second client receives the unencrypted event, and the time of arrival at the second client is after the time of publication. 52. The system of claim 51, wherein the point in time of departure to the first client is the point in time of departure to the second client. 53. The system of claim 51, wherein the time of arrival at the first customer is the time of arrival at the second customer. 54. The system of claim 47, further comprising a key server, in which the sending server sends the encrypted event to the second client before the publication time, and the key server sends the decryption key to the second client after the publication time, the second client receiving the decryption key at the time of arrival at the first to the customer. 55. An event fair distribution system comprising a server and at least two clients, the server sending an encrypted event to at least two clients, and the server sending the decryption key to at least two clients after all of the at least two clients have accepted encrypted event. 56. The system of claim 55, further comprising a second client in which the server is a highly reliable cross-border server, the highly reliable cross-border server is a server that you can trust that it will not publish information before the appropriate time, and additionally in which the highly reliable cross-border server sends an unencrypted event the second client at the time of departure to the second client, and the time of departure to the second client allows the second client to receive an unencrypted event arriving It is valid at the same time that the decryption key is accepted by at least two clients. 57. The system of claim 55, further comprising a second client, wherein the server is a highly reliable cross-border server, the highly reliable cross-border server being such a server that you can trust that it will not publish information before the appropriate time, and additionally in which the highly reliable cross-border server accepts encrypted event, decrypts the encrypted event and sends the decrypted event to the second client at the time of sending to the second client, and the time is sending Ia second client allows a client to make a second decrypted event at about the same time as the decryption key is received by at least two clients. 58. The system according to clause 57, in which the point in time of departure to the second client is determined by referring to the connection history between the highly reliable cross-border server and the second client. 59. The system according to clause 57, in which the time of departure to the second client is determined by accessing the test result using the network functionality of the delay time of the second client between the highly reliable cross-border server and the second client. 60. A method for fairly distributing an event across a network environment to at least two clients, wherein the event contains information that must be published at a predetermined time of publication, this method comprises the steps of: sending an encrypted event from the sending server to at least two clients before the time of publication, and send the decryption key from the key server to at least two clients after the time of publication. 61. The method of claim 60, wherein the step of sending the decryption key occurs after all of the at least two clients have completed receiving the encrypted event. 62. The method of claim 60, further comprising the steps of: sending an unencrypted event from the sending server to the highly reliable cross-border server before the time of publication, the highly reliable cross-border server being such a server that is located on the exchange path between the sending server and the connected client, which can be trusted, that he will not publish the information until the appropriate time, and send an unencrypted event to the second client at the time of departure to the second client, and the point in time is sent The second client allows the second client to receive an unencrypted event at about the same time that the decryption key is received by at least two clients. 63. A highly reliable cross-border server, which is such a server that is located on the exchange path between the sending server and the connected client, and which you can trust that it will not publish information before the appropriate time, this highly reliable cross-border server contains means for sending the encrypted event to the first client before time of publication, and the event contains information that should be published at the time of publication, and means for sending the decryption key moat client after the publication time. 64. The highly reliable cross-border server according to claim 63, wherein the decryption key is sent after the first client has finished receiving the encrypted event. 65. The highly reliable cross-border server according to claim 63, further comprising means for decrypting the encrypted event and means for sending the decrypted event to the second client at the time of sending to the second client, and the time of sending to the second client allows the second client to receive the decrypted event at approximately the same time when the decryption key is received by the first client. 66. The highly reliable cross-border server according to clause 65, wherein the point in time of departure to the second client is determined by referring to the connection history between the highly reliable cross-border server and the second client. 67. The highly reliable cross-border server according to claim 65, wherein the time of departure to the second client is determined by referring to the test result using the network functionality of the delay time of the second client between the highly reliable cross-border server and the second client. 68. The highly reliable cross-border server according to claim 63, further comprising means for sending the unencrypted event to the second client at the time of sending to the second client, wherein the time of sending to the second client allows the second client to receive the unencrypted event at about the same time that the decryption key is received by the first client .