MIT Navigation ICAT (relates to Surveillance) Requirements a General Navigation(medium precision u Station Keeping(high precision) 口 ntegrity 日 Availability · Constraints 日 Existing nav systems 口 Loss of signal Technologies a GPS/ Galileo(need Differential) Code vs Carrier Phase Approaches 口| RS/GPS a Sensor Based Approaches for Station Keeping Image (visible, IR Range Finders( Laser, Ultrasonic
MIT ICAT Navigation (relates to Surveillance) y Requirements General Navigation (medium precision) Station Keeping (high precision) Integrity Availability y Constraints Existing nav systems Loss of signal y Technologies GPS/Galileo (need Differential) Code vs Carrier Phase Approaches IRS/GPS Sensor Based Approaches for Station Keeping Image (Visible, IR) Range Finders (Laser, Ultrasonic)
MIT ICAT NAVIGATION (ENROUTE) Radionavigation beacon a VHF Omnidirectional Range(VOR) a Non-Directional Beacon(NDB) a Distance Measuring Equipment (DME) 口 TACAN Area navigation systems ground based) 日 Omega 口 LORAN Inertial navigation systems Satellite navigation systems 日GPs(CA) 日GNSS( Galileo?)
MIT ICAT NAVIGATION (ENROUTE) y Radionavigation beacon VHF Omnidirectional Range (VOR) Non-Directional Beacon (NDB) Distance Measuring Equipment (DME) TACAN y Area navigation systems (ground based) Omega LORAN y Inertial navigation systems y Satellite navigation systems GPS (CA) GNSS (Galileo?)