Terralite 101. Agenda Novariant Mining Process Terralites – XPS Transmitters Signal Loss ...
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- Slide 1
- Terralite 101
- Slide 2
- Agenda Novariant Mining Process Terralites XPS Transmitters
Signal Loss Geometry Terralite constellation components
Augmentation Terralite constellation Designs RTK Site Analysis
- Slide 3
- 3 About Novariant, Inc. Automated Steering 24/7 Coverage RTK
Positioning with Orientation Novariant is the premier industrial
solutions provider for precision positioning, intelligent machine
control, and positioning infrastructure systems.
- Slide 4
- 4 Novariant History & Milestones Novariant, Inc. (formerly
named IntegriNautics) emerged from the Stanford University GPS
Laboratory in 1994 to pursue research and development for precision
vehicle control systems.
- Slide 5
- 5 1995 First to land a Boeing 737 with RTK GPS technology First
Logic7D control system used in aviation First independent
infrastructure (pseudolite) 1995 First indoor positioning
infrastructure with pseudolites 1999 Launch of AutoFarm Agriculture
Division First commercial GPS automated steering system First color
touch screen vehicle control system Novariant History &
Milestones
- Slide 6
- 6 2000 First Urban Canyon pseudolite infrastructure for
location based services in Tokyo, Japan 2000 AutoFarm AutoSteer
(GPS 5000 RTK) automated steering system offers sub-inch accuracy
2002 AutoFarm AutoSteer (GPS 5001 RTK) First integrated
multi-antenna GPS receiver (Quasar) Novariant History &
Milestones
- Slide 7
- 7 2003 AutoSteer for InterModal container transportation
VirtualRail automated steering for gantry cranes 2004
Integrinautics changes name to Novariant 2004 (Sept.) Novariant
announces Terralite XPS system for mines
- Slide 8
- 2005 Introduction of remote monitoring solutions for Terralite
XPS - ensuring guaranteed up-time for open pit mining operations.
2005 Release of OnTrac mechanical drive steering 2006 Introduction
of the first-ever implement steering system based on RTK GPS -
AFTracker - developed in partnership with Orthman Manufacturing.
Novariant History & Milestones
- Slide 9
- 2006 Dual-antenna MX100 GPS/XPS receiver available for mining
applications, including drills and shovels. 2007 AutoFarm announces
the FarmPRO GPS Steering & Application Control System. 2008
AutoFarm announces AF-Viewer II software developed in partnership
with Farm Works 2008 AutoFarm launches new OnTrac2 GPS Assisted
Steering System Novariant History & Milestones
- Slide 10
- 10
- Slide 11
- Trimble Acquires Novariant Mining Oct 08, 2010 /PRNewswire via
COMTEX News Network/ -- Trimble (Nasdaq: TRMB) announced today it
has acquired the Terralite assets from Novariant to expand its
portfolio of positioning solutions. Financial terms were not
disclosed.
- Slide 12
- 12 Common Mining Processes Prospect Survey Plan Drill, Blast
Shovel Haul, Dump Extract/ Process Product = Copper, Gold,
Diamonds, Etc. All these steps need to know where you are and where
the ore is located.
- Slide 13
- 13 What are Terralites? Terralites are a Ground-based signal
generators. They are used in conjunction with GPS and Glonass
satellite constellations They are used for 24/7 Real-time Augmented
positioning coverage.
- Slide 14
- What features do they have? A new positioning signal Broadcast
by each Terralite XPS Transmit Station Single channel XPS
code/carrier Does not consume GPS or Glonass bandwidth Typically
requires governmental approval for site use Not susceptible to
typical interference of license-free bands (e.g. 900MHz, 2.4GHz)
Self surveying
- Slide 15
- What do they do? Terralites transmit an XPS signal. XPS
(Extended Positioning Signal) The XPS signal is a licenced
frequency A licence frequency means that you will not have signal
interference The signal is in the X band range
- Slide 16
- Why do we need them?
- Slide 17
- Signal loss One Day More than 4 GPS can WORK Under 4 satellites
GPS DOES NOT WORK
- Slide 18
- Satellite Geometry Poor Geometry Good Geometry
- Slide 19
- DOP Values
- Slide 20
- Trimble Terralite Constellation Reference Station GNSS + XPS
Receiver AX100G
- Slide 21
- Terralites - TX100 XPS Transmit Station Automatic
self-surveying Rugged, sealed enclosure 12 Volt DC operation In
built Ethernet port USB and serial connections
- Slide 22
- IX100G GNSS/XPS Reference Station All-in-view GNSS (GPS and
GLONASS) plus 8 channels XPS tracking AX100G: Quad-frequency
L1/L2/GLONASS/XPS antenna 1 or 2 IX100G Reference Stations can be
used to optimize positioning coverage at the surface and deep in
the pit 1 Hz differential corrections to unlimited MX100G receivers
8 status LEDs 2 RS-232 serial ports Ethernet port Configurable via
TCP/IP and web browser Compatible with leading brand radio systems
Configurable for single constellation or Terralite Network
Constellation
- Slide 23
- MX100G Receivers All-in-view GNSS (GPS and GLONASS) plus 8
channels XPS tracking AX100G: Quad-frequency L1/L2/GLONASS/XPS
antenna Up to 5Hz position updates 8 status LEDs 2 RS-232 serial
ports Ethernet port Configurable via TCP/IP and web browser
Compatible with leading brand radio systems
- Slide 24
- AX100G - Antenna GPS / Glonass / XPS capable Antenna XPS
interface connector GNSS interface connector Powered by IX / MX100G
Circular Ground plane plate
- Slide 25
- How Augmentation works
- Slide 26
- Augmentation The Matrix above shows the minimum number of
signals required for a solution Manual 602-0077-02-A Page 41
- Slide 27
- Terralite constellation designs There are three Constellation
designs Basic Standard Network Manual 602-0077-02-A Page 10
- Slide 28
- Basic Constellation Manual 602-0077-02-A Page 61
- Slide 29
- Standard Constellation Manual 602-0077-02-A Page 63
- Slide 30
- Network Constellation Manual 602-0077-02-A Page 65
- Slide 31
- Autonomous Solution Errors due to the Ionosphere, Troposphere,
Satellite Clocks and Orbit information reduce the position
accuracy. A non corrected position is an Autonomous position. An
autonomous position would have an accuracy greater than 4m.
- Slide 32
- RTK Correction Real Time Kinematic
- Slide 33
- RTK Delivery Reliable RTK delivery is required or the receivers
will not be in a high precision mode. RTK delivery is provided by
mine duty wireless IP radios. Expected typical RTK throughput is
greater than 99%.
- Slide 34
- Terralite options Solar power station for continuous operation
28 foot trailer mounted mast Solar cells Two (2) 130 Watt panels
Batteries Four (4) 105AH Deep cycle AGM Power Supply 12v 4.2 Amp
Charge Controller 10 Amp with low voltage disconnect Weather Tight
Battery Enclosure
- Slide 35
- Terralite Performance Terralite XPS Transmission. 1 Channel XPS
transmission Terralite XPS Signal Transmit Range. Typical transmit
range of 6.5 km (configuration and site dependent)
- Slide 36
- Terralite Technical Data Dimensions & Weights 654 mm (L) x
610 mm (A) x 323 mm (H) Weight. 11.6 kg Power. 24 W, 10 to 34 VDC
Operating. 20 C to +60 C Storage. 30 C to +80 C Humidity.. Humidity
100% condensing Sealing. Dustproof, weather sealed enclosure EMC.
Emissions: FCC Part 90 & Class A FCC Part 15 Class A
- Slide 37
- Site Survey In a Site Survey analysis, the mine company
provides to Trimble: A three-dimensional mine map for every stage
of the mine plan to be analysed. A list of areas in the mine where
equipment will typically be working.
- Slide 38
- Site Survey Field Work Obstruction survey Locations recorded
with 360 vertical angle observations of obstructions. Note dumps,
infrastructure and topography which may not be on the 3D models
provided by site. Locations, Field of view, Access, Power, Safety
concerns and open Sky for Terralites Locations, Access, Power,
Safety and open sky for Reference stations Machine mountings and
cable lengths Wireless network coverage
- Slide 39
- Site Report Trimble conducts an analysis and provides a report
to the mine, which includes: The expected availability of a
positioning sensor, when only GNSS satellites are used for the
solution, for each stage of the mine plan (and thereby showing
potential room for improvement by installation of Terralite
infrastructure). The type of Terralite constellation that best
meets the needs of the mine at each stage. For example, a Standard
constellation or Network constellation. The locations of the
Terralite transmitters and Reference Stations for each stage of the
mine plan.
- Slide 40
- Site Analysis Using the site pit shells we can simulate the
satellites visible from all points within your mine using the mine
terrain as an obscurity mask. We use a grid to determine the points
in the mine. The grid spacing can be anything of our choosing but
we would tend to use around a 20m spacing depending on the area to
cover. For every point in that grid the simulation records the GPS
and Glonass satellite data including all DOP values and records it
into a database, observations taken every minute for a 24 hour
period. Thus each point will have 1440 entries. Multiply that by
the number of points and you have a very extensive site coverage
analysis. The information can then be displayed visually by showing
you a coloured mine plan indicating where the areas of poor
coverage are. We can also display duration information for each
point. A report is provided explaining the various DOPS and
coverage the mine has. We can also tailor a Terralite solution to
provide up to 100% coverage.