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Executives

2

Board of Directors

2

1st Detect Management Team

2 Team Members

1st Detect has 2 executives. 1st Detect's former Chief Executive Officer is Raj Mellacheruvu.

Name

Work History

Title

Status

Raj Mellacheruvu

Chief Executive Officer

Former

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Name

Raj Mellacheruvu

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Work History

Title

Chief Executive Officer

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Status

Former

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1st Detect Board of Directors

2 Board of directors

1st Detect has 2 board of directors, including Eric Stober.

Name

Firm

Work History

Other Seats

Eric Stober

Eric Stober serves as Chief Financial Officer at Capital Factory. Entrepreneur and public company senior finance and operations executive with a track record of adding value through M&A, capital raising, opportunity identification and analysis, and proficient financial management while building and leading results-driven teams and upholding the highest standards of integrity and work ethic. Dependable team player with board level accountability and diverse industry experience with a relentless desire to deliver significant results and the ambition to do what it takes to get the job done.

1st Detect

Thomas B Pickens III

1st Detect

Name

Eric Stober

Thomas B Pickens III

Firm

Work History

Eric Stober serves as Chief Financial Officer at Capital Factory. Entrepreneur and public company senior finance and operations executive with a track record of adding value through M&A, capital raising, opportunity identification and analysis, and proficient financial management while building and leading results-driven teams and upholding the highest standards of integrity and work ethic. Dependable team player with board level accountability and diverse industry experience with a relentless desire to deliver significant results and the ambition to do what it takes to get the job done.

Other Seats

1st Detect

1st Detect

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Compare 1st Detect to Competitors

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TeleSecurity Sciences

TeleSecurity Sciences specializes in advanced imaging solutions for the Homeland Security market. Their products include Automated Threat Detection algorithms and software tools for security imaging systems, such as liquid detection, electronic unpacking for CT scanners, and the Common Workstation. The company primarily serves sectors that require security imaging technology, such as airports and border control. It is based in Las Vegas, Nevada.

I
Integrated Defense and Security Solutions

Integrated Defense and Security Solutions develops and manufactures airport security systems. It provides X-ray scanners, narcotics detection, and other products and services. The company serves the airport security industry. It was founded in 2012 and is based in Boxborough, Massachusetts. In March 2023, Integrated Defense and Security Solutions was acquired by Tek84. The terms of the transaction were not disclosed.

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Thruvision

Thruvision is a company that specializes in people security screening technology within the security industry. The company's main offerings include the detection of metallic and non-metallic threats such as weapons, explosives, and contraband items hidden under clothing, using patented 'Passive Terahertz Technology'. Thruvision primarily serves sectors such as aviation security, surface transportation, customs and borders, building entrances, and retail distribution centers. It is based in Ashburn, Virginia.

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Neural Guard

Neural Guard is a technology company that focuses on the development of automated threat detection solutions in the security screening industry. The company's main service is providing an artificial intelligence system that delivers automated, immediate threat detection for X-ray security screening operators. This system is primarily used in sectors such as aviation and mass transportation, law enforcement, event security, and government buildings. It was founded in 2017 and is based in London, England.

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HyPerComp

Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Electromagnetic Scattering Effects of Sea on the Radar Cross Section (RCS) of Small Boats in Littoral and Deep Ocean Environments.. The abstract given for this project is as follows: A comprehensive approach is proposed to providing realistic geometric models for small craft moving in a littoral environment, including representations for the sea surface, suitable for use in computing radar returns from the combined surfaces using currently available electromagnetic solvers. In the phase I effort, HyPerComp, Inc., in collaboration with Prof. Patrick Lynett of Texas A&M University, will construct and demonstrate an interface that utilizes the output of Prof. Lynett's COULWAVE software, which generates time-dependent sea surfaces representative of both shallow and deep-water conditions, in combination with HyPerComp's sophisticated gridding tools, to provide complete surface-patch representations for the target environment. In later phases, this interface will serve the basis for writing a GUI that will allow the end user to specify a wide range of sea and target environments for the EM solvers. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Efficient Broadband Electrically Small Antenna Arrays. The abstract given for this project is as follows: HyPerComp proposes to build on the discontinuous Galerkin (DG)-based high order accurate broadband electromagnetics environment TEMPUS to provide modeling and simulation support to Navy's interests in the design of efficient small antennas. TEMPUS is a complete industrial grade CEM environment that includes all aspects of a CEM simulation such as CAD geometry modeling/repair, unstructured gridding for full-scale targets with general materials, parallel run set up (for PC- and workstation clusters) and higher order accurate solvers for Maxwell's equations, and postprocessing utilities for solution visualization and extraction of final results like antenna radiation patterns, and bistatic/monostatic scattering RCS, SAR images, and range profiles. The goal is to mature TEMPUS for modeling small antennas with metamatrials as well as coupling of the full wave solver with innovative non-Foster matching active circuits to candidate low-profile, conformal, wideband concepts in current vogue. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Signature Prediction and Uncertainty Analysis for Radar-based MDA Applications. The abstract given for this project is as follows: A new, highly efficient physics-based approach is proposed for mapping the variation in RCS of MDA targets of interest over the full range of angle, frequency, geometry, and material properties relevant in missile defense scenarios. This approach implements recent developments in reduced-basis methodology (RBM) for Maxwell's equations and combines the speed of RBM evaluations with the efficiency of stochastic collocation for uncertainty quantification to produce valid statistical measures of RCS variability, as well as RCS estimates of certified accuracy for each condition of observation. This RBM approach to RCS evaluation is built on generating accurate full-wave solutions for a small subset of the various parameters. In the proposed program, these solutions will be computed using the TEMPUS full-wave solver, which has demonstrated the ability to capture all the subtle effects of target structure on the radar return. For very large targets, the Cross-Flux technique will be used to combine TEMPUS and Xpatch solutions to produce an accurate hybrid solution. Speedup of the TEMPUS solver itself will be sought by implementing local time-stepping and variable-order local field representations. Porting the solver algorithms to a graphics card architecture will also be investigated, as that strategy offers speedups of 20 to 100. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Weapon System Performance in Complex Radio Frequency (RF) Environments. The abstract given for this project is as follows: In this proposed effort we seek to develop mesh repair algorithms that optimize preexisting meshes for CEM full wave solvers. We will investigate automated methods for converting asymptotic meshes to full wave CEM solver meshes. Mesh repair modules will implemented and accessed from a stand-alone tool with 3-D visualization capabilities or via C++ libraries that may be added to existing codes. The modules will include mesh resolution and quality repair capabilties using smoothing and mesh regeneration techniques. Mesh connectivity repair will be provided by a method that performs automatic restitching of the mesh across unconnected mesh boundaries. Procedures for converting asymptotic meshes to four sided surfaces, such that new fully connected mesh may be generated, will be implemented and tested. HyPerComp's many years of experience with grid generation technologies makes it well positioned to successfully implement the proposed techologies and provide greater usefullness for preexisting meshes, which can be very time consuming to create. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Efficient Small Antennas. The abstract given for this project is as follows: We propose here a systematic approach to designing efficient small antennas by applying innovative non-Foster matching techniques to candidate low-profile, conformal, wideband concepts in current vogue. The Phase-I project will be based exclusively on numerical analysis, spanning as wide a design space as possible, to provide a shortlist of the most promising design concepts which can be made small and unobtrusive. The performance of these designs will be judged based upon their radiation efficiency, gain- bandwidth and volume in both transmit and receive modes of operation. Comparisons with conventional small antenna concepts will be made, and potential gains will be assessed. Upon selecting the most promising baseline design for the radiating element as well as the non-Foster circuit, we seek to optimize the design and demonstrate its viability in a potential second phase of this project. This project will be a collaborative effort between HyPerComp Inc., and HRL Laboratories, LLC (Malibu, CA). HyPerComp has an extensive track record and pioneering contributions in the area of computational electromagnetics with applications to many key areas in the aerospace industry. HRL has an active interest in non-Foster matching circuits and is one of the industry leaders in antenna research and development worldwide. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Continuous Detonation Rocket and Air Breathing Engines. The abstract given for this project is as follows: We propose here a systematic sequence of advancements which can lead to the efficient and reliable operation of continuous detonation engines. The advancements sought will pertain to fuel injection, initiation and sustenance of detonation waves and the geometrical design of detonation channels and nozzles. A scalability study will be performed to assess the feasibility of the detonation engine at larger thrust levels and design alternatives needed at higher thrust levels will be explored. Phase-I research will rely upon analytical and computational models, and a test program is planned at the University of Texas at Arlington (UTA) for a potential second phase of this project. Ample prior experience on all these fronts is available with the proposing team of HyPerComp and UTA. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: High-Speed Airbreathing Propulsion Integration. The abstract given for this project is as follows: In this proposal HyPerComp Inc., jointly with Lockheed Martin Aeronautics, GASL and the University of Texas at Arlington, seeks to create a high performance rapid test environment for hypersonic multimode airbreathing vehicle development. This will be achieved by a systematic sequence of advancements in both computational as well as experimental methods being used in the study of such systems. While due care will be taken to accurately represent the basic external aerodynamics, structural mechanics and heat transfer phenomena, the emphasis of this project will be placed on the study of dual-mode propulsion systems with integrated inlets/nozzles and multiple combustor paths, that are a vital ingredient in major ongoing vehicle programs such as the DARPA-FALCON. The integrated multiphysical approach to the study of the vehicle performance proposed here is aimed to supersede current techniques in component-wise modeling, external integration and lumped performance estimates. Developments in this area are timely, given the rapid pace of activity in hypersonic vehicle design concepts in recent times, such as in the X-51, FALCON-HTV/HCV and allied programs. The proposing team consists of industry leaders in flow simulation, testing, vehicle design and integration. Hypercomp is a company that received a Department of Defense SBIR/STTR grant for a project entitled: Dynamic Blade Shapes for Improved Helicopter Rotor Aeromechanics. The abstract given for this project is as follows: HyPerComp Inc. is teaming with NextGen Aeronautics and the Rotorcraft Center at the University of Maryland to explore the use of dynamic blade shapes (morphing) for improved rotor performance. Team members complement HyPerComp's core expertise in modeling and simulation of the rotors, NextGen's vast experience in actuator design and fabrication, and consultation from University of Maryland on dynamic blade shapes and smart materials. We propose a high-fidelity CFD-based investigation of five different dynamic blade shape concepts for rotor performance improvement: (1) camber variation; (2) trailing edge deflection; (3) leading edge droop; (4) blade twist distribution; and (5) tip geometry (sweep, anhedral, and planform taper). The Phase-I study would be performed for the Black Hawk UH-60A rotor. Hovering, steady-level high-speed forward, and high-thrust forward flights will be studied. Loosely coupled CFD-CSD (aero-elastic) simulations of the isolated rotor (no fuselage) will be performed to compute trimmed solutions and rotor performance. Phase-I study would conclude with the documentation of the effect of the different dynamic blade shapes on rotor performance and the down-selection of the most effective ones. For those concepts, a preliminary study of the physical realizability in terms of actuation mechanism concepts, power, stroke, and frequency will be performed.

H
Healthcare Staffing Services

Healthcare Staffing Services is a company that specializes in managed security services, primarily in the healthcare and high-risk security sectors. The company offers a range of services including integrated security strategies, healthcare security, aviation security, government facility security, risk consulting and training, and medical equipment management. Its services are primarily targeted towards organizations in healthcare, aviation, government, and other sectors where safety and security are paramount. It was founded in 1967 and is based in Denver, Colorado.

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