Maintenance window scheduled to begin at February 14th 2200 est. until 0400 est. February 15th

(e.g. yourname@email.com)

Forgot Password?

    Defense Visual Information Distribution Service Logo

    2-263rd Air Defense Artillery Battalion conducts Chemical Agent Detector Colorimetric Reader assessment

    2-263rd Air Defense Artillery Battalion conducts Chemical Agent Detector Colorimetric Reader (CADCoR) assessment

    Photo By Maj. William Duvall | Members of 2-263rd Air Defense Artillery Battalion (ADA BN), South Carolina National...... read more read more

    CLEMSON, SOUTH CAROLINA, UNITED STATES

    07.17.2019

    Story by Capt. William Duvall 

    263rd Army Air Missile Defense Command

    CLEMSON, S.C. – South Carolina National Guard Soldiers participated in a user assessment of the first-generation Chemical Agent Detector Colorimetric Reader (CADCoR) prototype at Clemson, South Carolina, July 13, 2019.

    U.S. Army National Guard Soldiers with the 2-263rd Air Defense Artillery (ADA) Battalion, 263rd Army Air Missile Defense Command, South Carolina National Guard, participated in the assessment to provide feedback from the Soldiers to be used to evaluate, assess, and improve the CADCoR in determining colorimetric responses.

    “The CADCoR team will conduct a user assessment of the CADCoR and its ability to interpret the M256A2 sampler-detector colorimetric response. Soldiers will undergo familiarization training for the M256A2 sampler-detector and CADCoR prototype,” said Kerrin Dame, U.S Army Combat Capabilities Development Command Chemical Biological Center (CCDC CBC) representative. “Soldiers will evaluate the CADCoR through scenario-based exercises to assess the effectiveness and efficacy of the prototype in conjunction with key activities such as data collection, after action reviews (AAR), and surveys to record CADCoR operations and results.”

    The objective of the International Joint Force user assessment was to evaluate ease of training and use for the CADCoR from a Soldier’s standpoint, determine future improvements and capabilities for the CADCoR based on Soldier input and feedback, and assess the dependability and reliability of the CADCoR in determining the colorimetric response of the M256A2 sampler-detectors in different light disciplines.

    The M256A2 Chemical Agent Detector Kit is a single-operator portable kit for detecting and classifying chemical agents in suspect vapors, liquid, and solids and is used to determine if the environment is safe for unmasking procedures to be performed. A previous assessment determined that Soldiers often had a difficult time interpreting the color change of the M256A2 in different light conditions and could not determine if a chemical agent had been detected.

    In addition, some colorblind Soldiers are unable to correctly interpret the colorimetric response of the M256A2. The CADCoR prototype automatically interprets the colorimetric response of the M256A2 ticket and provides high fidelity in reading the ticket in any light condition, thus eliminating any incorrect interpretations by the Soldier.

    “When using the M256A2 detector ticket, many times in the past, it was difficult to interpret the color on the test spot of the detector ticket,” said Kevin Wan, U.S Army CCDC CBC representative. “The CADCoR reads the color accurately through the use of cameras and algorithms to interpret the ticket and takes the guess work out of whether it is safe or unsafe to unmask.”

    Six South Carolina National Guard Soldiers attended the assessment: 2nd Lt. Joseph Denton, Sgt. Paul Alexander, Sgt. Weston McCorkle, Cpl. Slake Keller, Spc. Jamie French, and Spc. Derin Smith.

    “The assessment today is allowing the scientists and engineers of the CADCoR development team the opportunity to get direct observation and feedback from Soldiers using the CADCoR,” said David Glynn, U.S. Army CBRN school representative, opening the assessment with the Soldiers. “We are looking to see what feedback we can receive from the Soldiers, let them know the purpose of why the CADCoR is developed this way, what we can do to improve its functionally, so we can see what right feels and looks like.”

    The assessment started with a brief overview of the M256A2 and then conducted several practice iterations with the Soldiers. Upon familiarization, the Soldiers donned their Mission Oriented Protective, Posture (MOPP) level four. The Soldiers were tasked to operate the M256A2 in conjunction with the CADCoR in ambient light, low light, and no light conditions. The purpose of these testing conditions is to evaluate the importance of the CADCoR ability in determining the “safe” or “unsafe” condition in unmasking procedures without the aid of tactical lighting and human interpretation.

    After the assessment, the 2-263rd ADA Soldiers shared their feedback of the CADCoR.

    “I am a 74D [Chemical, Biological, Radiological and Nuclear specialist] and it was a challenge, especially in the MOPP level four,” said McCorkle.

    Some of the challenges in operating the CADCoR in low light and no light conditions arose from difficulties in reading the LCD text display and difficulties in registering button operation while wearing thick, protective gear.

    “The training was engaging. It was good that half of the class had a chemical background and the other half was [military occupational specialty] immaterial,” said Denton. “The equipment (CADCoR) was easy to learn, simple to use, and very lightweight.”

    The Soldiers’ feedback and input will drive future improvements and capabilities for the CADCoR in addition to providing valuable data on the dependability and reliability of the CADCoR in determining the colorimetric response of the detector ticket in any light condition. The CADCoR provided the Soldiers with a high fidelity reading of the M256A2 response for unmasking procedures.

    “The Soldiers feedback is an instrumental part of the design and improvement to the prototype. This user assessment provide critical information to bring the engineer and Soldier closer together to develop a system that fits the complexity of a Warfighter’s mission,” said Kyle Hopkins, U.S Army CCDC CBC representative.

    Over the past decade, the U.S. Army CCDC CBC has collaborated with several foreign allies on research projects through the Coalition Warfare Program (CWP). The Japanese Ministry of Defense (MOD) Advanced Defense Technology Center (ADTeC) and CCDC CBC have worked jointly for the past three years on the CADCoR effort. Japan’s extensive knowledge in microfluidic devices and colorimetric recognition software made them an ideal candidate for partnership in this CWP effort.

    Representatives from the Japanese MOD ADTeC in attendance were Dr. Masaki Takeda, Dr. Hiroya Sakurai, and Keiji Oguri. The U.S Army CCDC CBC representatives were Kerrin Dame, William Argiropoulos, Robert Pazda, Kevin Wan, and Kyle Hopkins. The U.S. Army CBRN school representative was David Glynn.
    Each participant was recognized with a U.S. Army CCDC CBC coin presented by Dame. The day’s events ended with a group picture, concluding the CADCoR user assessment.

    NEWS INFO

    Date Taken: 07.17.2019
    Date Posted: 07.17.2019 08:31
    Story ID: 331736
    Location: CLEMSON, SOUTH CAROLINA, US

    Web Views: 188
    Downloads: 0

    PUBLIC DOMAIN