logging in or signing up C130a Shariyar Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 126 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 20, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript NGB-CD Technology Consortium “Strength Through Cooperation”: NGB-CD Technology Consortium “Strength Through Cooperation” Major Michael L. Thomas Technical Projects Officer Slide2: Overview Standardized C-130 pallet Major design constraints Operator station C-130 power capabilities Sensor pallet electrical layout Sensor pallet sensors Aerodynamic test Project timeline Slide4: Major Design Considerations Multi-mission flexibility (Environmental Impact Assessment, Counter Drug, Counter Terrorism, Homeland Security, Resource Surveys, Environmental Surveys) Equipment and operational stability Ground-to-air deployment (< 2 hours) No aircraft modification C-130 minimal mission interference Slide5: Major Design Considerations – cont. Upgrade flexibility In-flight deployable Adequate space for various sensor configurations Standardized mounting and connection of systems Power usage supplied within provided limits of C-130Slide6: Sensor Platform Sensor Platform – Design Considerations C-130 accessible Deployment and electrical equipment Hanger storage Motion stabilitySlide7: Sensor Platform Rail System Layout Sensor PlatformSlide8: Sensor Platform Pod Layout Sensor PlatformSlide9: Sensor Platform Rail System Components Linear guide drive with actuator and motor controller Rail system plate Gear shaft drive with motor controller Shaft/Bearing alignment system Sensor PlatformSlide10: Mechanical Arm and Pod - Design Considerations Accommodate multiple sensors (internal/external) Adequate space for various sensor configurations 360° field of view for sensors In-flight change-out or repair of sensors Internal and external real-estate for sensor placement Sensor PlatformSlide11: Mechanical Arm and Pod – Incremental Movement Sensor PlatformSlide12: Mechanical Arm and Pod – Incremental Articulation Sensor PlatformSlide13: Mechanical Arm and Pod – FEA Analysis Restraints set along shaft supports Forces applied simulating drag Material type/thickness selection Sensor PlatformSlide14: 2 computer stations 3 electronic racks Climate control (Fan and vent unit, dehumidifier) Communication panels Power rectification Components Operator Station Direct or indirect lighting 2 operator seats, 1 observer seat 2 operator doors Slingable/Stackable box Slide15: Base pallet – AAR Mobility Systems Inc. Cost $5,143.86 Operator Station – Sea Box Inc. Cost $31,150.00 Manufacturer Total cost $ 36,293.86 Operator StationSlide16: Proposed Capabilities Sensor operation/control Data acquisition/interpretation Data storage Direct ground/ aircraft/ satellite communication Converter for power supply Operator StationSlide17: C-130 Power Capabilities Slide18: C-130 Power DistributionSlide19: Sensor Pallet Control Slide20: Sensor Pallet/Current Deployment FLIR (STAR Saphire) Cameras - Digital GECKO System NAVCOM [Others to be added] DoD Sensor Pod National Guard Sensor Pod Working with CaANG to establish Slide21: DoD Timeline Technology Consortium Acquisition Model: Responsiveness. Advanced technology shall be integrated into producible systems and deployed in the shortest time practicable. Approved, time-phased capability needs matched with available technology and resources enable evolutionary acquisition strategies. Evolutionary acquisition strategies are the preferred approach to satisfying operational needs. Spiral development is the preferred process for executing such strategies. DOD Directive 5000.2 “The Acquisition Process” May 2003 Spiral Development. In this process, a desired capability is identified, but the end-state requirements are not known at program initiation. Those requirements are refined through demonstration and risk management; there a continuous user feedback; and each increment provides the user the best possible capability. The requirements for future increments depend on feedback from users and technology maturation. DOD Instruction 5000.2 “Operation of the Defense Acquisition System” May 2003 Technology Consortium Acquisition ModelContact Information: Contact Information NGB-CDX http://ngbcdtech.gtri.gatech.edu (404) 894-0621 (Maj. Michael Thomas) Email: thomasm@cdmail.ngb.army.mil (404) 894-4971 (Dr. Melinda Higgins) Email: Melinda.Higgins@gtri.gatech.edu DMC http://www-cddmi.forscom.army.mil (404) 469-5342 You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
C130a Shariyar Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 126 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 20, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript NGB-CD Technology Consortium “Strength Through Cooperation”: NGB-CD Technology Consortium “Strength Through Cooperation” Major Michael L. Thomas Technical Projects Officer Slide2: Overview Standardized C-130 pallet Major design constraints Operator station C-130 power capabilities Sensor pallet electrical layout Sensor pallet sensors Aerodynamic test Project timeline Slide4: Major Design Considerations Multi-mission flexibility (Environmental Impact Assessment, Counter Drug, Counter Terrorism, Homeland Security, Resource Surveys, Environmental Surveys) Equipment and operational stability Ground-to-air deployment (< 2 hours) No aircraft modification C-130 minimal mission interference Slide5: Major Design Considerations – cont. Upgrade flexibility In-flight deployable Adequate space for various sensor configurations Standardized mounting and connection of systems Power usage supplied within provided limits of C-130Slide6: Sensor Platform Sensor Platform – Design Considerations C-130 accessible Deployment and electrical equipment Hanger storage Motion stabilitySlide7: Sensor Platform Rail System Layout Sensor PlatformSlide8: Sensor Platform Pod Layout Sensor PlatformSlide9: Sensor Platform Rail System Components Linear guide drive with actuator and motor controller Rail system plate Gear shaft drive with motor controller Shaft/Bearing alignment system Sensor PlatformSlide10: Mechanical Arm and Pod - Design Considerations Accommodate multiple sensors (internal/external) Adequate space for various sensor configurations 360° field of view for sensors In-flight change-out or repair of sensors Internal and external real-estate for sensor placement Sensor PlatformSlide11: Mechanical Arm and Pod – Incremental Movement Sensor PlatformSlide12: Mechanical Arm and Pod – Incremental Articulation Sensor PlatformSlide13: Mechanical Arm and Pod – FEA Analysis Restraints set along shaft supports Forces applied simulating drag Material type/thickness selection Sensor PlatformSlide14: 2 computer stations 3 electronic racks Climate control (Fan and vent unit, dehumidifier) Communication panels Power rectification Components Operator Station Direct or indirect lighting 2 operator seats, 1 observer seat 2 operator doors Slingable/Stackable box Slide15: Base pallet – AAR Mobility Systems Inc. Cost $5,143.86 Operator Station – Sea Box Inc. Cost $31,150.00 Manufacturer Total cost $ 36,293.86 Operator StationSlide16: Proposed Capabilities Sensor operation/control Data acquisition/interpretation Data storage Direct ground/ aircraft/ satellite communication Converter for power supply Operator StationSlide17: C-130 Power Capabilities Slide18: C-130 Power DistributionSlide19: Sensor Pallet Control Slide20: Sensor Pallet/Current Deployment FLIR (STAR Saphire) Cameras - Digital GECKO System NAVCOM [Others to be added] DoD Sensor Pod National Guard Sensor Pod Working with CaANG to establish Slide21: DoD Timeline Technology Consortium Acquisition Model: Responsiveness. Advanced technology shall be integrated into producible systems and deployed in the shortest time practicable. Approved, time-phased capability needs matched with available technology and resources enable evolutionary acquisition strategies. Evolutionary acquisition strategies are the preferred approach to satisfying operational needs. Spiral development is the preferred process for executing such strategies. DOD Directive 5000.2 “The Acquisition Process” May 2003 Spiral Development. In this process, a desired capability is identified, but the end-state requirements are not known at program initiation. Those requirements are refined through demonstration and risk management; there a continuous user feedback; and each increment provides the user the best possible capability. The requirements for future increments depend on feedback from users and technology maturation. DOD Instruction 5000.2 “Operation of the Defense Acquisition System” May 2003 Technology Consortium Acquisition ModelContact Information: Contact Information NGB-CDX http://ngbcdtech.gtri.gatech.edu (404) 894-0621 (Maj. Michael Thomas) Email: thomasm@cdmail.ngb.army.mil (404) 894-4971 (Dr. Melinda Higgins) Email: Melinda.Higgins@gtri.gatech.edu DMC http://www-cddmi.forscom.army.mil (404) 469-5342