Abstract: A method for hosted payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). The method further comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. Also, the method comprises reconfiguring a host payload according to unencrypted host commands, and reconfiguring a hosted payload according to unencrypted hosted commands. Additionally, the method comprises transmitting host payload data to a host receiving antenna. Also, the method comprises transmitting hosted payload data to a hosted receiving antenna and/or the host receiving antenna. Additionally, the method comprises transmitting, by a host telemetry transmitter, encrypted host telemetry to the host SOC; and transmitting, by a hosted telemetry transmitter, encrypted hosted telemetry to the host SOC.

Abstract: Systems, methods, and apparatus for protected multi-operators payload operations are disclosed. In one or more embodiments, a disclosed method for protected multi-operators payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a payload on the vehicle according to unencrypted host commands and unencrypted hosted commands. Additionally, the method comprises transmitting, by a payload antenna on the vehicle, payload data to a host receiving antenna and a hosted receiving antenna. Also, the method comprises transmitting, by a host telemetry transmitter on the vehicle, encrypted host telemetry to the host SOC.

Abstract: A method for hosted payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). The method further comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. Also, the method comprises reconfiguring a host payload according to unencrypted host commands, and reconfiguring a hosted payload according to unencrypted hosted commands. Additionally, the method comprises transmitting host payload data to a host receiving antenna. Also, the method comprises transmitting hosted payload data to a hosted receiving antenna and/or the host receiving antenna. Additionally, the method comprises transmitting, by a host telemetry transmitter, encrypted host telemetry to the host SOC; and transmitting, by a hosted telemetry transmitter, encrypted hosted telemetry to the host SOC.

Abstract: Systems, methods, and apparatus for protected multi-operators payload operations are disclosed. In one or more embodiments, a disclosed method for protected multi-operators payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a payload on the vehicle according to unencrypted host commands and unencrypted hosted commands. Additionally, the method comprises transmitting, by a payload antenna on the vehicle, payload data to a host receiving antenna and a hosted receiving antenna. Also, the method comprises transmitting, by a host telemetry transmitter on the vehicle, encrypted host telemetry to the host SOC.

Abstract: A method for hosted payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a host payload according to unencrypted host commands, and reconfiguring a hosted payload according to unencrypted hosted commands. Additionally, the method comprises transmitting, by a host payload antenna, host payload data to a host receiving antenna. In addition, the method comprises transmitting, by a hosted payload antenna, hosted payload data to a hosted receiving antenna and/or host receiving antenna. Also, the method comprises transmitting, by a telemetry transmitter on the vehicle, encrypted host telemetry and encrypted hosted telemetry to the host SOC.

Abstract: Systems, methods, and apparatus for protected multi-operators payload operations are disclosed. In one or more embodiments, a disclosed method for protected multi-operators payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a payload on the vehicle according to unencrypted host commands and unencrypted hosted commands. Additionally, the method comprises transmitting, by a payload antenna on the vehicle, payload data to a host receiving antenna and a hosted receiving antenna. Also, the method comprises transmitting, by a telemetry transmitter on the vehicle, encrypted host telemetry and encrypted hosted telemetry to the host SOC.

Abstract: A method for hosted payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a host payload according to unencrypted host commands, and reconfiguring a hosted payload according to unencrypted hosted commands. Additionally, the method comprises transmitting, by a host payload antenna, host payload data to a host receiving antenna. In addition, the method comprises transmitting, by a hosted payload antenna, hosted payload data to a hosted receiving antenna and/or host receiving antenna. Also, the method comprises transmitting, by a telemetry transmitter on the vehicle, encrypted host telemetry and encrypted hosted telemetry to the host SOC.

Abstract: Systems, methods, and apparatus for protected multi-operators payload operations are disclosed. In one or more embodiments, a disclosed method for protected multi-operators payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a payload on the vehicle according to unencrypted host commands and unencrypted hosted commands. Additionally, the method comprises transmitting, by a payload antenna on the vehicle, payload data to a host receiving antenna and a hosted receiving antenna. Also, the method comprises transmitting, by a telemetry transmitter on the vehicle, encrypted host telemetry and encrypted hosted telemetry to the host SOC.

Abstract: Methods, systems, and articles of manufacture consistent with the present invention provide for a data processing system having an efficient network communication infrastructure. The data processing system has a plurality of data processing nodes distributed across a network. Each node comprises a processor and a memory having an application and a routing thread operatively configured to receive a message on the network. The message has an application identifier and a message group identifier. Each application has a command thread and a plurality of message group handlers. Each routing thread is operatively configured to determine whether the received message is for the application on the respective node and to notify the application's command thread of the received message in response to determining that the message is for the application. The command thread then directs the message to one of the message group handlers based on the received message's message group identifier.

Abstract: A method is provided for developing an architecture model for a system-of-systems (SoS) that includes n system levels L1 . . . Ln, each of which includes at least one component of the SoS. For at least i>1, each system level Li includes at least one component of level Li-1. The method includes developing an architecture model for at least one level of the SoS. For at least i>1, the level Li-1 architecture model can be developed by developing a functional architecture model for level Li-1, and thereafter transforming the level Li-1 functional architecture model into a physical architecture model for level Li-1. The functional architecture model includes a functional and a logical structure for level Li-1. And as such, the functional architecture model is developed based upon a concurrent functional and logical decomposition of a functional architecture model developed for level Li.

Abstract: A method is provided for developing an architecture model for a system-of-systems (SoS) that includes n system levels L1 . . . Ln, each of which includes at least one component of the SoS. For at least i>1, each system level Li includes at least one component of level Li-1. The method includes developing an architecture model for at least one level of the SoS. For at least i>1, the level Li-1 architecture model can be developed by developing a functional architecture model for level Li-1 and thereafter transforming the level Li-1 functional architecture model into a physical architecture model for level Li-1. The functional architecture model includes a functional and a logical structure for level Li-1. And as such, the functional architecture model is developed based upon a concurrent functional and logical decomposition of a functional architecture model developed for level Li.

Abstract: A method is provided for developing an architecture model for a system-of-systems (SoS) that includes n system levels L1 . . . Ln, each of which includes at least one component of the SoS. For at least i>1, each system level Li includes at least one component of level Li-1. The method includes developing an architecture model for at least one level of the SoS. For at least i>1, the level Li-1 architecture model can be developed by developing a functional architecture model for level Li-1, and thereafter transforming the level Li-1 functional architecture model into a physical architecture model for level Li-1. The functional architecture model includes a functional and a logical structure for level Li-1. And as such, the functional architecture model is developed based upon a concurrent functional and logical decomposition of a functional architecture model developed for level Li.