Note:
This awardee has received supplemental funding. This award detail page includes information about both the original award and supplemental awards.
Award Information
Awardee
Award #
2013-MU-CX-K111
Funding Category
Continuation
Awardee County
Baltimore
Congressional District
Status
Closed
Funding First Awarded
2013
Total funding (to date)
$12,918,216
Description of original award (Fiscal Year 2013, $2,400,000)
This award was competitively made in response to a proposal submitted by The Johns Hopkins University Applied Physics Laboratory (APL) to a National Institute of Justice FY 2013 solicitation: "Establishing a National Criminal Justice Technology Research, Test, and Evaluation Center." The goal of this solicitation was to establish a center within the National Law Enforcement and Corrections Technology Center (NLECTC) System to provide research, test, and evaluation (RT&E) support to inform NIJ's non-forensic research and development (R&D) efforts and its efforts to inform the field concerning technology and related issues in a more innovative, sustainable, efficient, and effective manner. Among the activities that this center will perform are: (1) conducting a market survey and technical assessment of the alternative location-based offender monitoring technologies available to law enforcement and corrections agencies for monitoring offenders under community supervision; and (2) providing independent analytic and evaluation support to agencies and/or research organizations receiving awards under NIJ's FY 2013 "Evaluating the Efficacy of Lighting, Marking, and Painting Schemes in Reducing the incidence of Law Enforcement Vehicle Crashes" solicitation.
ca/ncf
Date Created: September 12, 2013
Similar Awards
- Effects of insects and soils on the assembly of universal microbial decomposers and prediction of postmortem interval
- How to Free a Butterfly: The Impact of Fair Chance Housing Ordinances on the Housing Outcome of System-Impacted Black Individuals
- Disaggregated Estimates of the Prevalence of Trafficking in Humans (DEPTH)