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Mutsuko Hatano, Professor, Tokyo Institute of Technology, Japan during the session "Diamond Sensors.Explore" at the World Economic Forum - AMNC 17, Annual Meeting of the New Champions in Dalian, People's Republic of China 2017. Copyright by World Economic Forum / Ciaran McCrickard

A-10 Warthog tail details

Optically Stimulated Luminescence-based radiation detectors developed by researchers at Pacific Northwest National Laboratory, can be used to detect special nuclear materials being smuggled into the country via sea containers. Also known as smart sensors, these battery-operated detectors are strategically located inside sea containers and information is collected via wireless personal digital assistants.

 

For more information, visit www.pnl.gov/news/

 

Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.

This is the new temperature sensor w/ power indicator LED, and a new connector interface (RJ45 + backup .100 headers.)

 

More info here: make.rrrf.org/ts-2.0

Scientists can analyze atmospheric gas concentrations with laser-based sensors that use systems similar to the one illustrated above. The sensor instrument directs a laser through gas and, based on how much laser light is absorbed by a sample, scientists can determine the specific gases present and their concentrations.

 

Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.

Before and after pics from cleaning my D600 sensor for the first time.

 

I used Sensor Swab Type 3 and the Eclipse Optic Cleaning Fluid, both bought from Amazon.com

 

www.amazon.com/Sensor-Swab-Type-Box-12/dp/B0029WUKVG/ref=...

www.amazon.com/Photographic-Solutions-ECDSC-Cleaning-Solu...

 

It took 4 swabs to get it 99% clean (3 would have been fine, but I was being OCD about 1 tiny spec). Here is the before and after in full resolution!

 

Shot with the Tokina 17-35, F14, ISO 800, 1/4s for all shots, around 17-19mm. AWB made the last photo a bit different colored, but you get the point :)

 

Total end cost to me was about $47, which is less than a typical shop sensor cleaning, and I still have 8 swabs left -- good for another 2 or 3 cleans hopefully!

purchased at argos store-birmingham in july 1986 for £35. an unusual watch in which the keyboard is in the watch face and operated by finger touch sensor-has also 3 alarms, timer, chronometer and duel time and backlight.-see also photo 1.

Second check at image 1,617, after all the photos taken on a 10-day trip (with multiple lens changes along the way). Sometimes, I'll see something that looks like a hair on some of my photos and I'll have to see what thats about. Otherwise, there's still a little bit of dust on the sensor, but it's moved from the last check photo I took.

365 Project - Day 343

 

I will have to shoot a wedding tomorrow. All by myself as the sole wedding photographer. A truly scary proposal. I did all the necessary preparations: An extensive prep talk with the couple, location scouting, a talk with the registrar. Now all that is left is making sure my equipment (and the backups) are in perfect condition. This is the Mark III’s sensor under a sensor loupe. Cleaning a sensor is always a little bit scary but once you get used to it can be done fairly quickly.

This is the new temperature sensor w/ power indicator LED, and a new connector interface (RJ45 + backup .100 headers.)

 

More info here: make.rrrf.org/ts-2.0

An MCA Cat III Workboat, owned by Aspect Land & Hydrographic Surveys Ltd, of Ayrshire.

 

The 'Marine Sensor' is road towable, and with a small forward cabin, can deploy from a slipway or boat hoist / crane and able to operate a wide variety of sensors.

 

Her hulls and catamaran configuration lend a fast transit speed and give good directional stability resulting in high quality survey data.

 

MCA Cat III Workboat

Length 6.9m

Beam 2.5m

Draught 0.3m

This is our remote temperature and depth sensor. It's designed to be mounted on a bridge facing south. The solar panel and battery keep the system (in the battery box) up and taking temperature and depth samples. The idea is that we can measure temperature and depth in areas of the Hudson where the winter ice would destroy (utterly destroy) anything in the water.

Pacific Northwest National Laboratory developed sensor-packed synthetic salmon that are making their way through the turbines at Bonneville Dam and other hydroelectric projects to measure the conditions that real fish encounter as they pass through turbines at hydroelectric dams on their way to the ocean. The information they collect could lead to more fish-friendly turbines in the future.

 

For more information, visit www.pnl.gov/news/

 

Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.

Howard River Swamp. Different angle, different colour.

 

D600 | AF-S Nikkor 24-70mm f2.8G ED | Lightroom – colour enhance, cropping and jpeg conversion

Assembled AuroraWatchNet magnetometer sensor unit. The lower PCB is a Calunium v2.0 microcontroller board, the upper PCB is the FLC100 shield. This contains a Ciseco XRF radio module (blue PCB). The FLC100 magnetometer is located on a remote PCB (not shown).

This motion sensor alerts the local film developer when someone enters the store. Every time someone enters, a "bing-bong" is sounded.

Infrared sensor for automatic pole reversing train wye

This is TCS230 based Bluetooth color picker prototype which we build to test the concept. In here the idea is to extract color from any physical object and transfer it to PC / mobile. To test this concept, we use low-cost TCS230 color sensor.

 

The firmware, schematic and Python monitoring script of this project are available at github.com/dilshan/tcs230-color-picker. To build PIC16F628A firmware use MPLAB IDE with XC8 C compiler.

Canon 10mp aps-c image sensor used in 400d / Rebel XTi and possibly in 40d 1000d

Die size 24.3 x 17.6 = 427.68mm2

Effective area size 22.2 x 14.8

The smile that caused the camera sensor to crack

Before and after pics from cleaning my D600 sensor for the first time.

 

I used Sensor Swab Type 3 and the Eclipse Optic Cleaning Fluid, both bought from Amazon.com

 

www.amazon.com/Sensor-Swab-Type-Box-12/dp/B0029WUKVG/ref=...

www.amazon.com/Photographic-Solutions-ECDSC-Cleaning-Solu...

 

It took 4 swabs to get it 99% clean (3 would have been fine, but I was being OCD about 1 tiny spec). Here is the before and after in full resolution!

 

Shot with the Tokina 17-35, F14, ISO 800, 1/4s for all shots, around 17-19mm. AWB made the last photo a bit different colored, but you get the point :)

 

Total end cost to me was about $47, which is less than a typical shop sensor cleaning, and I still have 8 swabs left -- good for another 2 or 3 cleans hopefully!

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Fun fact: the orange light on the right is inspired by a similar device attached to some types of city maintenance machines.

Al final de la estación de la Serena se encuentra este artefacto, que tiene como fin activar las barreras del paso a nivel, que se encuentra unos 300 metros más adelante.

 

At the end of La Serena station is this device, which is designed to activate the level crossing barriers, that is about 300 meters ahead.

Rockwell Automation Expands Sensor Offering with New Stainless Steel Sensors

 

Visit phx.corporate-ir.net/phoenix.zhtml?c=196186&p=irol-ne... to view full news

release text.

The Enhanced Medium Altitude Reconnaissance and Surveillance System (EMARSS) contributes to filling critical gaps in the Airborne Intelligence, Surveillance and Reconnaissance (AISR) coverage Brigade Combat Teams (BCTs) require to be successful across the Range of Military Operations and especially in Irregular Warfare (IW) operations. It provides a persistent multi-intelligence capability to detect, locate, classify/identify, and track surface targets in day/night, near-all-weather conditions with a high degree of timeliness and accuracy. EMARSS is a product of Program Executive Office Intelligence, Electronic Warfare, and Sensors.

 

Read more on page 98 of the 2013 U.S. Army Weapon Systems Handbook: armyalt.va.newsmemory.com/wsh.php.

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