The electrical engineer who developed an electronic device for a former military commander is getting a $2 million upgrade.
A new prototype ARSENSENAL device has been given a new name and a new mission.
The Army has given the device a new design name, the M2A1 Electro-Optical Sensor System, and the Army is asking for your help to get it approved for use.
The Army’s Joint Electronic Systems Center says it will pay for the upgrade, and it will be installed in a newly-designated Marine Corps F-35 Lightning II aircraft carrier.
The original device was developed by Army engineer Jeff Creswell, and he says it has been proven to be a cost-effective, reliable, and highly reliable system.
He says it can be used to measure electrical and optical characteristics of the electronic components of an electronic system.
“If you know where your electronic components are, and you know how much they cost, you can calculate how much that electronic system will cost to maintain,” Cresco said.
He says he was looking for a way to help Marines.
“I think there’s a lot of people who want to do it,” he said.
“I’ve seen a lot, and I’ve been able to work on it for a while.
And I think it’s a great product for us to be able to give back.”
The M2AI system was developed for Marine Corps Special Operations Command, and has been in use since the 1980s.
It has a battery-powered sensor that measures voltage, current, temperature, and other parameters.
It also measures how the system performs in real time, and can show you when and where an electronic component fails, so you can repair it.
Creswell says it is a great way to get better measurements in the field.
“You can see things happening in real-time.
You can see how it’s performing, and that gives you an idea of what it’s costing you to keep it running,” he says.
But the system doesn’t just provide information.
It is also useful for diagnosing problems in an electronic subsystem.
“The sensors that we have here, they’re very accurate and very accurate,” he explains.
“They’re not perfect, but they’re good enough to give you a sense of what’s going on.
So you can actually make an assessment of how your electronic subsystem is performing.”
The first M2 AI system was designed in the early 2000s by the University of California at Berkeley.
It was originally designed to detect a small piece of armor that was falling off an F-16 fighter jet.
Cresso says he wanted to find a way of increasing the accuracy of the sensor to detect even small pieces of armor falling off a fighter jet’s wing.
“We did some research and found that a wing can fall off an aircraft at a rate of 30 meters per second,” he explained.
“So we looked at what would happen if you had a small sensor on that wing that was able to detect that that wing would fall off and have a very low angular velocity.
So that sensor would be able, within the sensor’s range, to determine where that wing was, and what it was doing.”
It took about a year and $1 million to develop the sensor.
Cabs with a sensor are equipped with a digital camera, which is used to image a 3D picture of the vehicle and its surroundings.
The system is powered by batteries that can be charged by a small battery charger attached to the battery pack of the drone.
When the batteries are fully charged, they can hold about 40 to 100 microamps.
A small battery pack contains an IC chip that can measure voltage, currents, temperature and other electrical parameters.
The battery pack has a chip that has a small electronic circuit board, a battery charger, and a microcontroller.
The microcontroller controls the charging of the battery packs.
“So you can basically, by just putting an AC plug in, you could actually have this battery pack charging the microcontroller,” Cascio explained.
The sensors are small, and Cresse said it takes a very small battery to power them.
He said the battery can last about a month on a single charge.
The M1A1 system has a different purpose than the first system.
The M2 system uses a new generation of electronics that use a very different technique to measure voltages.
Casciol says they are able to get more precise readings.
“It’s much more sensitive to voltage and current.
It’s more sensitive and able to measure temperature and humidity and other things,” he told CBS News.
“And it’s more durable, and less susceptible to wear and tear, and things like that.
So it’s going to be really valuable for a lot more applications that you’ll see.”
He said it also allows the system to be used in situations where a sensor has