The document describes about helicopter based magnetometer system which makes use of optically pumped potassium sensors. This airborne magnetometer configuration developed by Gem systems Canada, has wide range of applications in research and mapping fields.
Source : Gem systems Canada, http://www.gemsys.ca/
AUV-based Cathodic Protection (CP) Automatic Inspection Technology for offsho...Sergey Korneev
We are - "BaltRobotics Sp.z.o.o." - the company that had designed and manufactured Vessel-AUV complex to inspect undersea pipelines in automatic mode - CP-inspection ones (CP-UAIT).
Our AUV X-3A uses the wireless underwater acoustic video communication channel of our design.
If it is interesting for you - please, contact me for the details.
You can see some movie on our site:
http://www.baltrobotics.com/index.php/media-1/video-mnu/item/293-testing-of-auv-x-3a-and-the-carrier-vessel-maeksa
http://www.baltrobotics.com
e-mail: sergii.kornieiev@baltrobotics.com
Een update over verschillende AUVs van Kongsberg Maritime met toepassingen en mogelijkheden van verschillende modellen in de reeks. Aandacht voor data kwaliteit van de peilingen.
AUV-based Cathodic Protection (CP) Automatic Inspection Technology for offsho...Sergey Korneev
We are - "BaltRobotics Sp.z.o.o." - the company that had designed and manufactured Vessel-AUV complex to inspect undersea pipelines in automatic mode - CP-inspection ones (CP-UAIT).
Our AUV X-3A uses the wireless underwater acoustic video communication channel of our design.
If it is interesting for you - please, contact me for the details.
You can see some movie on our site:
http://www.baltrobotics.com/index.php/media-1/video-mnu/item/293-testing-of-auv-x-3a-and-the-carrier-vessel-maeksa
http://www.baltrobotics.com
e-mail: sergii.kornieiev@baltrobotics.com
Een update over verschillende AUVs van Kongsberg Maritime met toepassingen en mogelijkheden van verschillende modellen in de reeks. Aandacht voor data kwaliteit van de peilingen.
The use of imagery in monitoring existing sub surface structuresPeter McCready
Applications and Research in Hydrographic Surveying:
A report examining the use of imagery to monitor sub surface structures.
Produced in fulfilment of MSc Geospatial & Mapping Sciences at the University of Glasgow (2015).
Underwater acoustic communication is a technique of sending and receiving message below water.[1] There are several ways of employing such communication but the most common is using hydrophones. Under water communication is difficult due to factors like multi-path propagation, time variations of the channel, small available bandwidth and strong signal attenuation, especially over long ranges. In underwater communication there are low data rates compared to terrestrial communication, since underwater communication uses acoustic waves instead of electromagnetic waves.
Seminar on underwater sensor network in which we are focusing on energy conservation or how to regain the energy in the sensor from tidal energy this is generating the new concept in this field
The use of remotely operated Autonomous Surface Vehicles (ASV’s) has become easy accessible since the introduction of the Teledyne Oceanscience Z-Boat, a versatile solution for a wide range of applications. In this session we will take a closer look at the various hydrographic applications and the advantages of using an unmanned system.
Design of Underwater wireless optical/acoustic link for reduction of back-sca...theijes
Underwater communication plays a significant role in the study of climate change through ocean monitoring and associated sensor networks. It is severely limited when compared to free space communication because water is essentially opaque to electromagnetic radiation except in the visible band. Even in the visible band, light penetrates only a few hundred meters in the clearest waters and much less in turbid waters due to the presence of suspended sediment or high concentrations of marine life. Consequently, acoustic techniques are been used for underwater communication systems which is relatively mature and robust. Acoustic systems are capable of long range communication. But traditional underwater acoustic communications cannot provide high enough data rates to enable monitoring technology. Optical wireless communications, centred around blue-green wavelengths, are being used as an alternative. Here a hybrid design is being introduced using an optical/acoustic link to reduce back scattering of transmitted light.
New generation of high sensitivity airborne potassium magnetometersGem Systems
Overview
Airborne Trends in Mineral Exploration
Why Potassium?
Benefits of Potassium Vapour Magnetometers
How we did it!
Bird’s family
Gradiometers – Rationale
Tri-Directional Gradiometer – Bird
GEM DAS
Sample Customer Maps
Conclusion
Source : http://www.gemsys.ca/technology/tech-notes-papers/
The use of imagery in monitoring existing sub surface structuresPeter McCready
Applications and Research in Hydrographic Surveying:
A report examining the use of imagery to monitor sub surface structures.
Produced in fulfilment of MSc Geospatial & Mapping Sciences at the University of Glasgow (2015).
Underwater acoustic communication is a technique of sending and receiving message below water.[1] There are several ways of employing such communication but the most common is using hydrophones. Under water communication is difficult due to factors like multi-path propagation, time variations of the channel, small available bandwidth and strong signal attenuation, especially over long ranges. In underwater communication there are low data rates compared to terrestrial communication, since underwater communication uses acoustic waves instead of electromagnetic waves.
Seminar on underwater sensor network in which we are focusing on energy conservation or how to regain the energy in the sensor from tidal energy this is generating the new concept in this field
The use of remotely operated Autonomous Surface Vehicles (ASV’s) has become easy accessible since the introduction of the Teledyne Oceanscience Z-Boat, a versatile solution for a wide range of applications. In this session we will take a closer look at the various hydrographic applications and the advantages of using an unmanned system.
Design of Underwater wireless optical/acoustic link for reduction of back-sca...theijes
Underwater communication plays a significant role in the study of climate change through ocean monitoring and associated sensor networks. It is severely limited when compared to free space communication because water is essentially opaque to electromagnetic radiation except in the visible band. Even in the visible band, light penetrates only a few hundred meters in the clearest waters and much less in turbid waters due to the presence of suspended sediment or high concentrations of marine life. Consequently, acoustic techniques are been used for underwater communication systems which is relatively mature and robust. Acoustic systems are capable of long range communication. But traditional underwater acoustic communications cannot provide high enough data rates to enable monitoring technology. Optical wireless communications, centred around blue-green wavelengths, are being used as an alternative. Here a hybrid design is being introduced using an optical/acoustic link to reduce back scattering of transmitted light.
New generation of high sensitivity airborne potassium magnetometersGem Systems
Overview
Airborne Trends in Mineral Exploration
Why Potassium?
Benefits of Potassium Vapour Magnetometers
How we did it!
Bird’s family
Gradiometers – Rationale
Tri-Directional Gradiometer – Bird
GEM DAS
Sample Customer Maps
Conclusion
Source : http://www.gemsys.ca/technology/tech-notes-papers/
Hydraulic Ram Pump System Design Manual ~ Peace Corps
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http://scribd.com/doc/239850233
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Simple Square Foot Gardening for Schools - Teacher Guide =
http://scribd.com/doc/239851110 ~
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01 Introduction
02 Drilling fluid invasion
03 Resistivity & ARCHIE Equations
04 SP
05 resistivity log
06 gamma ray log
07 sonic log
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10 litho density
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caliper log
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Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
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Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
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This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
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Gem 4-sensor-helicopter-system
1. Advancing Overhauser, Potassium and Proton Precession Magnetometer
Technologies for More than 2 Decades - "Our World is Magnetic!"
52 West Beaver Creek Road, Unit 14
Richmond Hill, ON CANADA L4B 1L9
Tel: 905-764-8008 Fax: 905-764-2949
Email: info@gemsys.on.ca
Web: www.gemsys.ca
GEM 4-Sensor Helicopter System
GEM Advanced Magnetometers has developed a helicopter based
magnetometer system using four optically pumped Potassium sensors. The
installation is housed in a special “bird” with two fins at the tips of an
imaginary tetrahedron to allow for measurement of the absolute magnetic
field and gradients in three directions: vertical, along, and across-the-track.
The noise envelope is 6 pT/m for 20 readings per second. Signal processing
algorithms also provide a measure of noise (fourth difference) for all
channels, direct gradients between any pair of sensors.
Photo of GEM 4-Sensor Helicopter System. 4 Potassium sensors are
arranged in an imaginary tetrahedron for measurement of
total field and three gradients.
2. Advancing Overhauser, Potassium and Proton Precession Magnetometer
Technologies for More than 2 Decades - "Our World is Magnetic!"
52 West Beaver Creek Road, Unit 14
Richmond Hill, ON CANADA L4B 1L9
Tel: 905-764-8008 Fax: 905-764-2949
Email: info@gemsys.on.ca
Web: www.gemsys.ca
Optically Pumped Potassium “SuperSenser” Technology
GEM is unique as the only commercial supplier of Potassium magnetometers
-- the highest sensitivity and absolute accuracy optically pumped systems
available. The GSMP-30A system extends these characteristics to the next
generation of even higher performance instruments.
Major benefits of the GSMP-30A include:
• Acquisition of very high resolution and accuracy data. Potassium systems
are a minimum of 10 times more sensitive than cesium optically pumped
systems.
• Proven reliability and predictability of results. The natural physics of
Potassium narrow line spectra minimizes heading and orientation errors
to negligible levels.
• Minimization of maintenance costs. Once a system is purchased, there is
no need to return it for periodic optical alignment. This significantly
reduces servicing and shipping costs over the lifetime of an instrument.
• Enhanced survey efficiency. The GSMP-30A minimizes operating
requirements, such as warm up times, that slow surveys down.
• High bandwidth (Nyquist frequency of 10 Hz) for detailed spatial
resolution of geologic features.
• Minimal power requirements of 5 to 6 watts.
• Interfacing to standard commercial data acquisition systems via serial RS-
232 communications.
• Low noise. The following example shows data from a low-height flight
acquired by SOREQ – the Israeli Nuclear Energy Agency.
3. Advancing Overhauser, Potassium and Proton Precession Magnetometer
Technologies for More than 2 Decades - "Our World is Magnetic!"
52 West Beaver Creek Road, Unit 14
Richmond Hill, ON CANADA L4B 1L9
Tel: 905-764-8008 Fax: 905-764-2949
Email: info@gemsys.on.ca
Web: www.gemsys.ca
Sample Airborne Data from Soreq. Peak-to-Peak noise
is between 5 and 10 pT.
Gradiometer Configuration
Four optically pumped Potassium sensors are used in a special configuration
to measure tri-directional gradients. The sensors are placed in the back end
of the bird shell and the tips of three fins, 3 to 4 m apart from each other.
Average periods in the four Potassium frequencies are measured by a special
computerized frequency counter and converted into magnetic field units. The
differences in readings are taken and divided by the sensor spacings.
Horizontal across track gradient is measured directly from the readings of
the two lower (horizontal) sensors. The vertical is determined from the
average field measured by horizontal sensor and the sensor in the vertical
fin. Horizontal along-the-track gradient is based on the average field from
the three sensors placed in the fins and the bird-end sensor. Fourth
differences are calculated for all three gradients as well as four absolute
values of the magnetic field.
4. Advancing Overhauser, Potassium and Proton Precession Magnetometer
Technologies for More than 2 Decades - "Our World is Magnetic!"
52 West Beaver Creek Road, Unit 14
Richmond Hill, ON CANADA L4B 1L9
Tel: 905-764-8008 Fax: 905-764-2949
Email: info@gemsys.on.ca
Web: www.gemsys.ca
Bird Design
Traditional criteria for EM birds were observed when the bird was designed.
Requirements for rigidity are very much relaxed in comparison with EM
birds. It is sufficient to measure gradients with 0.1% accuracy (up to 5 to 10
pT / m and beyond).
The bird’s shell was therefore designed with sufficient diameter and wall
thickness to accept the magnetometer sensor and support weight of sensors,
fins, skirt, and its own weight with <0.1% change of relative sensor
positions due to shell flexing.
The fins are spaced at 120 degrees to allow for simple calculation of
gradients in all three directions; the average magnetic field of all three
sensors falls in the centre of the bird shell to allow for simple determination
of along-track gradient.
All three fins are 2.0m long to achieve a spacing for the vertical gradiometer
equal to 3.0m. Horizontal across and along-the-track gradients are based on
a sensor spacing of 3.45 and 3.76m, respectively, although the sensor in the
bird shell can be moved along the shell to suit any potential requirements for
different along-track configurations.
The bird skirt is designed to improve the distribution of weight along the bird
shell; the fins are placed in front to overweight the skirt and to make the
front end somewhat heavier in a stationary state. This ensures a downward
pressure on the skirt when flying, and stable towing of the bird. Pick-up
points are selected close to Euler minimum flexing points, although rigidity is
not crucial.
Signal Processing
The Potassium magnetometer supplies frequency information at up to 20
times per second for precise measurement and conversion into magnetic
field units.
Signals are processed through GEM’s Potassium console, or the system can
be interfaced to a data acquisition unit for later conversion in to magnetic
field units using a formula supplied by GEM Advanced Magnetometers.
5. Advancing Overhauser, Potassium and Proton Precession Magnetometer
Technologies for More than 2 Decades - "Our World is Magnetic!"
52 West Beaver Creek Road, Unit 14
Richmond Hill, ON CANADA L4B 1L9
Tel: 905-764-8008 Fax: 905-764-2949
Email: info@gemsys.on.ca
Web: www.gemsys.ca
Bird Specifications
Bird 5m 82 kg
3 Arms 2m 32 kg
Skirt 5m (diameter) 6 kg
Potassium 70 mm SuperSenser Specifications
Sensitivity: 0.001 nT @ 20 readings / second
Resolution: 0.0001 nT
Absolute Accuracy: 0.2 nT
Dynamic Range: 20,000 to 120,000 nT
Gradient Tolerance: Over 2,500 nT/m
Sampling Rate: 1 to 20 readings / sec
Operating Temperature: -20C to +55C
Console: 223 x 69 x 240mm
Sensor: 152 x 89mm (external dia.) cylinder
Electronics Box: 310 x 75 x 90mm