logging in or signing up ssuo robo3 Janelle 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: 106 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 15, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Building the Sonoma State University Robotic Telescope: Building the Sonoma State University Robotic Telescope Gordon G. Spear Department of Physics and Astronomy Sonoma State UniversityI am here to represent...: I am here to represent... Those people who want to build a robotic telescope Those people who have a telescope and want to make it robotic Those people who we want to participate in a scalable and sustainable automated telescope networkWhat is a robotic telescope?: What is a robotic telescope? A robotic telescope consists of a computer controlled telescope and CCD camera with an integrated control system. A robotic telescope must be scriptable so that a sequence of observations can be automated.Scriptable telescope mount: Scriptable telescope mount Point to arbitrary RA and DEC to within a few arcminutes. Track to within a few arcseconds for up to several minutes. Avoid wrapping cables around mount. Successfully move through “trouble spots” on the sky. meridian, zenith, pole Know the horizon limits for the mount. Always capable of moving to a safe home position. Scriptable CCD camera: Scriptable CCD camera Control camera settings including exposure time including camera temperature Control position of filter wheel Save images for later recovery Take dark frames Take flat field framesFurther capabilities required for a robotic telescope system: Further capabilities required for a robotic telescope system Power on/off Open/close roof and/or adjust dome Verify focus Synchronize telescope with sky Verify field and/or adjust telescope pointing Generate log of all saved imagesProposed categories for robotic telescopes: Proposed categories for robotic telescopes Manual Telescope (MT) Computer Controlled Telescope (CT) Robotic Telescope (RT) manual mode (RT-M) remote accessibility (RT-R) real time interactivity (RT-I) autonomous (RT-A)Some established robotic telescope systems: Some established robotic telescope systems The Bradford Telescope The University of Iowa Telescope The Fairborn Observatory The Hanna City Robotic Observatory The URSA System (under construction)The Fairborn Telescope Farm: The Fairborn Telescope FarmThe Hanna City Robotic Observatory: The Hanna City Robotic ObservatoryURSA Undergraduate Research Studies in Astronomy: URSA Undergraduate Research Studies in Astronomy An example of a robotic system that has been built from scratch Claud Lacy, University of ArkansasSlide12: The URSA welcome screen The URSA observation request page The URSA observing model http://telescope.uark.edu Active testing will begin fall 2001. Routine use by students will begin sometime in 2002.How can I get one of these cool robotic telescope systems?: How can I get one of these cool robotic telescope systems?A Robotic Telescopic Model: A Robotic Telescopic Model What should the ideal robotic telescope model provide?: What should the ideal robotic telescope model provide? Control for telescopes, CCD cameras, and other instrumentation that is scriptable. ASCOM is an excellent example. A universal web interface that is easy to use and to understand. RTML is an excellent example. A central engine for accepting requests, establishing priorities, scheduling observations, archiving data, and advising users of completed observations.Slide16: Central Controller observing list observing log DATA to happy observer data archive camera commands telescope commands TELESCOPE CAMERA dataWhat are the available options for building a robotic telescope?: What are the available options for building a robotic telescope? Hire a commercial engineering firm. Purchase an off-the-shelf system. Upgrade an existing system using interoperable components. Build a new system independently from scratch.Some possible commercial sources for robotic telescopes: Some possible commercial sources for robotic telescopes Optical Guidance Systems (OGS) Software Bisque Meade (?) Celestron (??)Possible resources for building robotic telescopes: Possible resources for building robotic telescopes Software Bisque Comsoft (PC-TCS) DC-3 Dreams (Astronomer’s Control Program) ASCOM ATIS Jeff Medkiff’s robotic astronomy site RTML The Robotic Telescope Resource Site at SSUO this conferenceThe SSU Observatory and its Telescopes: The SSU Observatory and its Telescopes So, where is the SSU observatory anyway?The Epoch Telescope: The Epoch TelescopeThe ST-7 CCD camera on the Epoch telescope: The ST-7 CCD camera on the Epoch telescopeClose-up of the ST-7: Close-up of the ST-7The C14 telescope ...and some computers: The C14 telescope ...and some computersIn the command seat for the Epoch telescope...: In the command seat for the Epoch telescope... This is currently where the “robot” that makes everything happen must sit.Science at SSUO: Science at SSUO Active Galactic Nuclei (AGNs) Eclipsing Binaries (EBs) Galactic Anti-Center Variable Star Survey (GACVSS) Photometric Detection/Confirmation of Extrasolar PlanetsThe Epoch Telescope at SSU: The Epoch Telescope at SSU 10-inch f/5 Newtonian Fork mount with DC servo motors Friction roller drive Up to 60 watts per axis Slew speed about 6° per second Points to within 1-3 minutes of arc Tracks unguided for up to 5 minutesThe Epoch Telescope Software: The Epoch Telescope Software Servostar Runs under DOS Convenient user interface screen Internal database plus planets Enter RA and DEC Resync, Slew, Guide, etc. Drivers available for UNIX Source code currently unavailable!The future of Epoch… (Information provided by Kevin Medlock.): The future of Epoch… (Information provided by Kevin Medlock.) Servostar is about to be rewritten for Windows. The code will be made available as open source. The designs for the servo motor controller boards will be made freely available. Upgraded versions of the controller boards for up to 200 watts per axis will also be available. Controller boards will be available for purchase at modest cost. The future looks bright!All we need now is the money and we will build one of those cool robotic telescope systems!: All we need now is the money and we will build one of those cool robotic telescope systems!More Information: More Information An online version of this presentation plus more detailed information is available from the Robotic Telescope Resource Resource Site. http://phys-astro.sonoma.edu/observatory/roboscope This website contains URLs and direct links to all the resources mentioned in this presentation. This website will be maintained to reflect current developments for robotic telescope systems. spear@sonoma.edu You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
ssuo robo3 Janelle 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: 106 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: November 15, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Building the Sonoma State University Robotic Telescope: Building the Sonoma State University Robotic Telescope Gordon G. Spear Department of Physics and Astronomy Sonoma State UniversityI am here to represent...: I am here to represent... Those people who want to build a robotic telescope Those people who have a telescope and want to make it robotic Those people who we want to participate in a scalable and sustainable automated telescope networkWhat is a robotic telescope?: What is a robotic telescope? A robotic telescope consists of a computer controlled telescope and CCD camera with an integrated control system. A robotic telescope must be scriptable so that a sequence of observations can be automated.Scriptable telescope mount: Scriptable telescope mount Point to arbitrary RA and DEC to within a few arcminutes. Track to within a few arcseconds for up to several minutes. Avoid wrapping cables around mount. Successfully move through “trouble spots” on the sky. meridian, zenith, pole Know the horizon limits for the mount. Always capable of moving to a safe home position. Scriptable CCD camera: Scriptable CCD camera Control camera settings including exposure time including camera temperature Control position of filter wheel Save images for later recovery Take dark frames Take flat field framesFurther capabilities required for a robotic telescope system: Further capabilities required for a robotic telescope system Power on/off Open/close roof and/or adjust dome Verify focus Synchronize telescope with sky Verify field and/or adjust telescope pointing Generate log of all saved imagesProposed categories for robotic telescopes: Proposed categories for robotic telescopes Manual Telescope (MT) Computer Controlled Telescope (CT) Robotic Telescope (RT) manual mode (RT-M) remote accessibility (RT-R) real time interactivity (RT-I) autonomous (RT-A)Some established robotic telescope systems: Some established robotic telescope systems The Bradford Telescope The University of Iowa Telescope The Fairborn Observatory The Hanna City Robotic Observatory The URSA System (under construction)The Fairborn Telescope Farm: The Fairborn Telescope FarmThe Hanna City Robotic Observatory: The Hanna City Robotic ObservatoryURSA Undergraduate Research Studies in Astronomy: URSA Undergraduate Research Studies in Astronomy An example of a robotic system that has been built from scratch Claud Lacy, University of ArkansasSlide12: The URSA welcome screen The URSA observation request page The URSA observing model http://telescope.uark.edu Active testing will begin fall 2001. Routine use by students will begin sometime in 2002.How can I get one of these cool robotic telescope systems?: How can I get one of these cool robotic telescope systems?A Robotic Telescopic Model: A Robotic Telescopic Model What should the ideal robotic telescope model provide?: What should the ideal robotic telescope model provide? Control for telescopes, CCD cameras, and other instrumentation that is scriptable. ASCOM is an excellent example. A universal web interface that is easy to use and to understand. RTML is an excellent example. A central engine for accepting requests, establishing priorities, scheduling observations, archiving data, and advising users of completed observations.Slide16: Central Controller observing list observing log DATA to happy observer data archive camera commands telescope commands TELESCOPE CAMERA dataWhat are the available options for building a robotic telescope?: What are the available options for building a robotic telescope? Hire a commercial engineering firm. Purchase an off-the-shelf system. Upgrade an existing system using interoperable components. Build a new system independently from scratch.Some possible commercial sources for robotic telescopes: Some possible commercial sources for robotic telescopes Optical Guidance Systems (OGS) Software Bisque Meade (?) Celestron (??)Possible resources for building robotic telescopes: Possible resources for building robotic telescopes Software Bisque Comsoft (PC-TCS) DC-3 Dreams (Astronomer’s Control Program) ASCOM ATIS Jeff Medkiff’s robotic astronomy site RTML The Robotic Telescope Resource Site at SSUO this conferenceThe SSU Observatory and its Telescopes: The SSU Observatory and its Telescopes So, where is the SSU observatory anyway?The Epoch Telescope: The Epoch TelescopeThe ST-7 CCD camera on the Epoch telescope: The ST-7 CCD camera on the Epoch telescopeClose-up of the ST-7: Close-up of the ST-7The C14 telescope ...and some computers: The C14 telescope ...and some computersIn the command seat for the Epoch telescope...: In the command seat for the Epoch telescope... This is currently where the “robot” that makes everything happen must sit.Science at SSUO: Science at SSUO Active Galactic Nuclei (AGNs) Eclipsing Binaries (EBs) Galactic Anti-Center Variable Star Survey (GACVSS) Photometric Detection/Confirmation of Extrasolar PlanetsThe Epoch Telescope at SSU: The Epoch Telescope at SSU 10-inch f/5 Newtonian Fork mount with DC servo motors Friction roller drive Up to 60 watts per axis Slew speed about 6° per second Points to within 1-3 minutes of arc Tracks unguided for up to 5 minutesThe Epoch Telescope Software: The Epoch Telescope Software Servostar Runs under DOS Convenient user interface screen Internal database plus planets Enter RA and DEC Resync, Slew, Guide, etc. Drivers available for UNIX Source code currently unavailable!The future of Epoch… (Information provided by Kevin Medlock.): The future of Epoch… (Information provided by Kevin Medlock.) Servostar is about to be rewritten for Windows. The code will be made available as open source. The designs for the servo motor controller boards will be made freely available. Upgraded versions of the controller boards for up to 200 watts per axis will also be available. Controller boards will be available for purchase at modest cost. The future looks bright!All we need now is the money and we will build one of those cool robotic telescope systems!: All we need now is the money and we will build one of those cool robotic telescope systems!More Information: More Information An online version of this presentation plus more detailed information is available from the Robotic Telescope Resource Resource Site. http://phys-astro.sonoma.edu/observatory/roboscope This website contains URLs and direct links to all the resources mentioned in this presentation. This website will be maintained to reflect current developments for robotic telescope systems. spear@sonoma.edu