Transponder

Use this image

Can I reuse this image without permission? Yes

Object images on the Ingenium Collection’s portal have the following Creative Commons license:

Copyright Ingenium / CC BY-NC-ND (Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)

ATTRIBUTE THIS IMAGE

Ingenium, 2017.0055.009
Permalink:

Ingenium is releasing this image under the Creative Commons licensing framework, and encourages downloading and reuse for non-commercial purposes. Please acknowledge Ingenium and cite the artifact number.

DOWNLOAD IMAGE

PURCHASE THIS IMAGE

This image is free for non-commercial use.

For commercial use, please consult our Reproduction Fees and contact us to purchase the image.

OBJECT TYPE
RFID/passive
DATE
2016
ARTIFACT NUMBER
2017.0055.009
MANUFACTURER
Unknown
MODEL
Unknown
LOCATION
Unknown

More Information


General Information

Serial #
N/A
Part Number
9
Total Parts
13
AKA
RFID tag
Patents
N/A
General Description
Synthetic casing

Dimensions

Note: These reflect the general size for storage and are not necessarily representative of the object's true dimensions.

Length
21.0 cm
Width
11.0 cm
Height
2.1 cm
Thickness
N/A
Weight
N/A
Diameter
N/A
Volume
N/A

Lexicon

Group
Mining and Metallurgy
Category
Miscellaneous
Sub-Category
N/A

Manufacturer

AKA
Unknown
Country
Unknown
State/Province
Unknown
City
Unknown

Context

Country
Unknown
State/Province
Unknown
Period
Unknown
Canada
Dr. Jon Peck, who holds a PhD and MSc in Mining Engineering from McGill, is a leading expert in the automation of mobile mining equipment. He is recognized internationally for his work in this field. In 2015, Dr. Peck has been inducted to the International Mining Technology Hall of Fame for his work on automation of surface mining technologies. Dr. Peck’s research on automation dates back to the Canadian Center for Automation and Robotics in Mining. This little documented, but extremely important Centre was created jointly by Ecole Polytechnique and McGill in 1988, and operated at McGill until 1996. The CCARM was led by researchers such as Dr. John Edwards, Dr. Laeeque Daneshmend and Andre Peacher, who continued there the work earlier conducted at the Noranda Research Centre. The Noranda Centre and CCARM were at the core of most of mining R&D, and the entire Canadian automated and remote mining community has its roots in these institutions. When CCARM lost its funding, Dr. Peck moved to Queen’s University, where he served as the Head of the Department of Mining Engineering. In this position, he not only developed new technologies but also supervised PhD research of a younger generation of mining engineers, who are today responsible for designing technologies for mining from deep sea to space. In 1992, Dr. Peck founded Aquila Mining Systems Ltd. which designed an Advanced Monitoring and Positioning Platform. The product was sold to Caterpillar in 1996 and is now a standard platform in surface mining operations. At Aquila, Dr. Peck was responsible for pioneering of the real-time high precision GOS guidance for blasthole drills and cable shovels and drill monitoring with rock recognition capabilities. In fact, all subsequent work on rock recognition has been based on Dr. Peck’s research. In 2004, Dr. Peck created Peck Tech, where he continues to work on augmented GPS devices, advanced rock recognition algorithms, and autonomous drill operations. He also advices mining companies around the world on automation and remote mining. Dr. Peck continues to educate and mentor a new generation of Canadian mining engineers through his work at Queen’s, McGill and Concordia. Dr. Sandy Pyke is an Electronic Technologist, software engineer and hardware architect. He worked with Dr. Peck at Aquila in the 1990s, and then continued developing the monitoring and positioning platforms at Caterpillar. He built prototypes of Aquila’s and Peck Tech’s technologies. Dr. Pyke rejoined Peck at Peck Tech in 2004. (From Acquisition Proposal, see Ref. 1)
Function
Produces a response when it receives a radio-frequency interrogation. Used with the uGPS Rapid Mapper in closed loop mode by being placed at a known location in the scanning area to improve the accuracy of the scan.
Technical
The uGPS Rapid Mapper is a small, portable, fully automated, remotely controlled scanner. The scanner is furnished with a GPS system, which can map reference points for an underground mine and use the points to positions the scanner in the mine allowing it to accurately locate it. uGPS Rapid Mapper is a unique laser-based, mobile mapping technology designed to survey underground mines and build 3D maps that can be converted to virtual mines or can be modeled on a PC. The system travels through a mine and scans it very quickly, creating a 3D point cloud data. The data conveys very detailed information on the mine. It allows us to examine the mine inside, but also to step out of the mine and see its model. This extends the applications of the technology from mine planning and safety to assessment of geological data and vertical excavations for narrow-veined deposits. The technology includes 2 laser scanners, which scan the area creating point clouds; an inertial sensor that calculates position, orientation and velocity of the unit underground; an onboard computer, optional Wi-Fi connectivity, and an RFID tag reader. This allows for an open loop scanning, close loop scanning and vertical scanning. (From Acquisition Proposal, see Ref. 1)
Area Notes
Unknown

Details

Markings
In raised letters on the proper front: "Omni-ID"/ On the sticker on the proper front: "[logo]/ uGPS/ RAPID MAPPER [TM]"/ On the proper bottom edge: "MS8401-K ABS 12815"
Missing
Appears complete
Finish
Predominantly dark grey casing with a black, white and red sticker on the proper front. There is also some black printed markings on the proper bottom edge.
Decoration
N/A

CITE THIS OBJECT

If you choose to share our information about this collection object, please cite:

Unknown Manufacturer, Transponder, circa 2016, Artifact no. 2017.0055, Ingenium – Canada’s Museums of Science and Innovation, http://collections.ingeniumcanada.org/en/item/2017.0055.009/

FEEDBACK

Submit a question or comment about this artifact.

More Like This


...
Transponder

2017.0055.008

Object

...
Transponder

2017.0055.010

Object

...
Transponder

2017.0055.011

Object

...
Transponder

2017.0055.012

Object

...
Scanner

2017.0055.001

Object

...
Cap, flash dr…

2017.0055.007

Object

...
Case, storage…

2017.0055.013

Object

...
Scanner

2017.0013.001

Object

...
Cord, power s…

2017.0055.003

Object

...
Cable

2017.0055.005

Object

...
Cord, power s…

2017.0055.004

Object

...
Drive, flash

2017.0055.006

Object

...
Adapter

2017.0055.002

Object

...
Computer

2017.0054.001

Object

...
Drill leg

2010.0270.002

Object

...
Drill, pneuma…

2010.0270.001

Object

...
Drill leg

2010.0269.002

Object

...
Needle, syrin…

2013.0005.001

Object

...
Case, storage…

2015.0122.006

Object

...
Cable

2015.0122.004

Object

...
Scanner, unde…

2015.0122.001

Object

...
Cord, power s…

2015.0122.005

Object

...
Bit, mining d…

2010.0269.004

Object

...
Pin

2010.0269.003

Object

...
Drill, hydrau…

2010.0269.001

Object

...
Box, junction

2015.0122.002

Object

...
Cable

2015.0122.003

Object

...
Cover

2013.0003.002

Object

...
Drill, pneuma…

2010.0273.001

Object

...
Bit, mining d…

2010.0275.001

Object

...
Drill, pneuma…

2010.0271.001

Object

...
Drill, pneuma…

2010.0272.001

Object

...
Bit, mining d…

2010.0264.001

Object

...
Bit, mining d…

2010.0265.001

Object

...
Scanner part …

2019.0008.003

Object

No image available.
Poster

2009.0269.001

Object

...
Log book

2013.0004.001

Object

...
Insert, scann…

2005.0060.003

Object

...
Bit, mining d…

2010.0266.001

Object

...
Scanner part …

2019.0008.002

Object

...
Insert, scann…

2005.0060.004

Object

...
Drilling plat…

1990.0350.001

Object

...
Scanner

2019.0008.001

Object

...
Valve

2013.0003.003

Object

...
Insert, scann…

2005.0060.002

Object

...
Truck

2013.0125.001

Object

...
Cord sample

2011.0061.001

Object

...
Cord sample

2011.0059.001

Object

...
Scanner

2005.0060.001

Object

...

X-36090

Archives

...
Helmet

2011.0062.001

Object

...
Scanner

1999.0109.001

Object

...
An electric l…

X-17964

Archives

...
Scanner

1999.0042.001

Object

...
Sign

2013.0014.001

Object

...
Asbestos Mine…

X-32586

Archives

...
Cord sample

2011.0060.001

Object

No image available.
Poster

2009.0270.001

Object

...
Sign

2013.0010.001

Object

...
Bit, mining d…

2011.0058.001

Object

...
Sign

2013.0006.001

Object

...
Sign

2013.0008.001

Object

...
Glove, work

2010.0259.001

Object

...
Scanner part …

2005.0060.017

Object

...
Bit, oil dril…

1986.0897.001

Object

...
Liner, miner'…

2012.0099.002

Object

...
Breathing app…

2010.0261.001

Object

...
Platform leg …

1985.0769.001

Object

...
Key, winding

2010.0268.002

Object

...
A view of Can…

X-16318

Archives

...
Sign

2013.0013.001

Object

...
Sign

2013.0015.001

Object

...
Glove, work

2010.0259.002

Object

...
Sample, bolt

2013.0509.009

Object

...
Sample, bolt

2013.0509.006

Object

...
Sample, bolt

2013.0509.007

Object

...
Sample, bolt

2013.0509.008

Object

...
Sign

2013.0009.001

Object

...
Sign

2013.0011.001

Object

...
Sign

2013.0012.001

Object

...
Sign

2013.0017.001

Object

...
Glove, work

2010.0262.002

Object

...
Drive, disk

2005.0060.016

Object

...
Ruling engine

1972.0449.001

Object

...
Strap, belt

2010.0256.002

Object

...
Sign

2010.0254.001

Object

...
Bit, oil dril…

1967.0869.001

Object

...
Glove, work

2010.0262.001

Object

...
Sign

2013.0016.001

Object

...
Sign

2013.0018.001

Object

...
Bolt

2013.0510.001

Object

...
Miners workin…

40893

Archives

...
Strap

2010.0261.006

Object

...
Hat, safety

2010.0257.001

Object

No image available.
Breathing app…

2010.0261.002

Object

...
Detonator

2010.0268.001

Object

...
Hose

2010.0261.003

Object

...
Slide rule

2005.0084.001

Object

...
Sign

2018.0145.001

Object

...
Bag, storage

2010.0261.005

Object