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Interplanetary Program to Optimize Simulated Trajectories (IPOST). Volume 3: Programmer's manual (1992)

Kent, P. D. ; Olson, D. W. ; Hong, P. E. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The Interplanetary Program to Optimize Space Trajectories (IPOST) is intended to support many analysis phases, from early interplanetary feasibility studies through spacecraft development and operations. Here, information is given on the IPOST code.

Keywords: SPACE TRANSPORTATION

Type: NASA-CR-189653-VOL-3-REV , NAS 1.26:189653-VOL-3-REV

Format: application/pdf

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2

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Interplanetary Program to Optimize Simulated Trajectories (IPOST). Volume 1: User's guide (1992)

Hong, P. E. ; Kent, P. D. ; Vallado, C. A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: IPOST is intended to support many analysis phases, from early interplanetary feasibility studies through spacecraft development and operations. The IPOST output provides information for sizing and understanding mission impacts related to propulsion, guidance, communications, sensor/actuators, payload, and other dynamic and geometric environments. IPOST models three degree of freedom trajectory events, such as launch/ascent, orbital coast, propulsive maneuvering (impulsive and finite burn), gravity assist, and atmospheric entry. Trajectory propagation is performed using a choice of Cowell, Encke, Multiconic, Onestep, or Conic methods. The user identifies a desired sequence fo trajectory events, and selects which parameters are independent (controls) and dependent (targets), as well as other constraints and the coat function. Targeting and optimization is performed using the Stanford NPSOL algorithm. IPOST structure allows sub-problems within a master optimization problem to aid in the general constrained parameter optimization solution. An alternate optimization method uses implicit simulation and collocation techniques.

Keywords: SPACE TRANSPORTATION

Type: NASA-CR-189653-VOL-1-REV , NAS 1.26:189653-VOL-1-REV

Format: application/pdf

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3

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Interplanetary program to optimize simulated trajectories (IPOST). Volume 4: Sample cases (1992)

Hong, P. E. ; Vallado, C. A. ; Olson, D. W. ; [et al.]

In: CASI

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Details

Publication Date: 2019-06-28

Description: The Interplanetary Program to Optimize Simulated Trajectories (IPOST) is intended to support many analysis phases, from early interplanetary feasibility studies through spacecraft development and operations. The IPOST output provides information for sizing and understanding mission impacts related to propulsion, guidance, communications, sensor/actuators, payload, and other dynamic and geometric environments. IPOST models three degree of freedom trajectory events, such as launch/ascent, orbital coast, propulsive maneuvering (impulsive and finite burn), gravity assist, and atmospheric entry. Trajectory propagation is performed using a choice of Cowell, Encke, Multiconic, Onestep, or Conic methods. The user identifies a desired sequence of trajectory events, and selects which parameters are independent (controls) and dependent (targets), as well as other constraints and the cost function. Targeting and optimization are performed using the Standard NPSOL algorithm. The IPOST structure allows sub-problems within a master optimization problem to aid in the general constrained parameter optimization solution. An alternate optimization method uses implicit simulation and collocation techniques.

Keywords: SPACE TRANSPORTATION

Type: NASA-CR-189653-VOL-4 , NAS 1.26:189653-VOL-4

Format: application/pdf

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4

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Interplanetary Program to Optimize Simulated Trajectories (IPOST). Volume 2: Analytic manual (1992)

Hong, P. E. ; Vallado, C. A. ; Olson, D. W. ; [et al.]

In: CASI

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Details

Publication Date: 2019-06-28

Description: The Interplanetary Program to Optimize Space Trajectories (IPOST) is intended to support many analysis phases, from early interplanetary feasibility studies through spacecraft development and operations. The IPOST output provides information for sizing and understanding mission impacts related to propulsion, guidance, communications, sensor/actuators, payload, and other dynamic and geometric environments. IPOST models three degree of freedom trajectory events, such as launch/ascent, orbital coast, propulsive maneuvering (impulsive and finite burn), gravity assist, and atmospheric entry. Trajectory propagation is performed using a choice of Cowell, Encke, Multiconic, Onestep, or Conic methods. The user identifies a desired sequence of trajectory events, and selects which parameters are independent (controls) and dependent (targets), as well as other constraints and the cost function. Targeting and optimization is performed using the Stanford NPSOL algorithm. IPOST structure allows subproblems within a master optimization problem to aid in the general constrained parameter optimization solution. An alternate optimization method uses implicit simulation and collocation techniques.

Keywords: SPACE TRANSPORTATION

Type: NASA-CR-189653-VOL-2-REV , NAS 1.26:189653-VOL-2-REV

Format: application/pdf

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

NASA TECHNICAL REPORTS

S·F·X

Overview