Category Archives: DARPA

Defense Advanced Research Agency

DARPA Program Manager Dr. Joshua Baron

Dr. Joshua Baron started as a DARPA program manager in the Information Innovation Office (I2O) in August, 2017.  Before joining DARPA he worked at the RAND corporation where he “investigated methods and tools to enable the development of enhanced decision-making capabilities for cyberspace operations. He also examined policy implications of virtual currencies as well as various cryptographic technologies.”

Dr. Baron is the Program Manager for the Brandeis program, which seeks to develop the technical means to protect the private and proprietary information of individuals and enterprises. His research interests include cryptography, secure computation, novel decision-making analytics for cyberspace operations and cybersecurity.  DBLP lists nine publications for Dr. Baron.

Dr. Baron received his Doctor of Philosophy and Master of Arts degrees in mathematics from the University of California, Los Angeles and a Bachelor of Arts in mathematics from the University of California, Berkeley.


DARPA Program Manager Dr. Fotis Barlos

Dr. Fotis Barlos joined DARPA as a program manager in the Strategic Technologies Office (STO) in Januarym, 2017.  Dr. Barlos was a research scientist with BAE Systems before joining DARPA.

Google Scholar lists 19 publications by Dr. Barlos with 42 citations.  While at BAE Dr. Barlos oversaw a portfolio of projects that included “decision support and data mining; artificial intelligence; knowledge representation and reasoning; machine learning and forecasting; uncertainty management; command and control and wargaming; and computational social science.”

Dr. Barlos received his Ph.D. in computer science and engineering, and a Master of Science in electrical and computer engineering from George Mason University.  He received a Bachelor of Science in computer and information sciences from the University of Patras in Greece.

DARPA Program Manager Dr. Lori Adornato

Dr. Lori Adornato started as a DARPA program manager in the Biological Technologies Office (BTO) in July, 2017.  Before joining DARPA she worked at SRI International where she developed and fielded optics-based marine instruments.

Dr. Adornato’s interests at DARPA include “interpretation of organismal behavior and development of bio-inspired materials, as well as platforms and systems for marine sensing applications.”  ResearchGate list’s 17 publications and 1 patent for her.

She received her Doctor of Philosophy degree and Bachelor of Arts in Chemistry from the University of South Florida.

DARPA Switching Networks and Conley-Morse Index for Modeling Systems of Systems Award

DARPA DSO has announced an award to Geometric Data Analytics, Inc. for Switching Networks and Conley-Morse Index for Modeling Systems.  The award amount is $611,000.

This contract was awarded under the DSO Office Wide BAA, number DARPA-BAA-16-46.

DARPA Secure Handhelds on Assured Resilient networks at the tactical Edge (SHARE) Proposers Day

DARPA has announced the Secure Handhelds on Assured Resilient networks at the tactical Edge (SHARE) Proposers Day through the Special Notice DARPA-SN-17-16.  The objective of the Secure Handhelds on Assured Resilient networks at the tactical Edge (SHARE) program is to develop the technology for multilevel secure information sharing across tactical wireless networks to enhance tactical coordination between U. S. and coalition partners.

SHARE will “develop and integrate software and networking technologies to create secure information systems that operate at multiple security and releasability levels. SHARE will build upon existing commercial handheld devices (e.g., smartphones and tablets) and existing infrastructure (e.g., cellular and Wi-Fi networks). Because they are commonly available, these technologies make rapid and widespread deployment possible and thereby facilitate greater information exchange among U.S. and coalition forces. Specifically, SHARE will secure tactical mobile handheld devices to support distributed multilevel information sharing without the need for reaching back to large-scale fixed infrastructure, create new networks based on resilient and secure architectures that work in challenging environments, and develop software that rapidly configures security across the network. Based on these technology innovations, the program will demonstrate a quickly deployable secure multilevel network through which US and coalition tactical operators can share information while maintaining the security of sensitive information, safety of operations, and integrity of U.S. systems.”

Secure Handhelds on Assured Resilient networks at the tactical Edge (SHARE) program on January 31, 2017 at The MITRE Corporation, 7515 Colshire Dr, McLean, VA.  Participants must register no later than 4PM E on January 25, 2017 at


DARPA Biological Control Award

DARPA BTO has announced an award to Columbia University, New York for the Biological Control Program, BAA number DARPA-BAA-16-17.  The award amount is $3,013,454 with not to exceed options of $4,602,696.

The Biological Control Program program will “demonstrate tools to rationally design and implement multiscale, closed-loop control of biological systems, through the development of biological controllers, testbeds to evaluate control of system-level behavior, and theory and models to predict and design effective control strategies. The resulting capabilities will be inherently generalizable to a variety of biological systems. Successful teams will integrate and apply these capabilities to demonstrate a practical proof-of-principle biological solution to a proposer-defined application relevant to the DoD.”

The program manager is Dr. Elizabeth Strychalski.

DARPA Consortium For Execution of Rendezvous and Servicing Operations (CONFERS) BAA

DARPA Tactical Technology Office (TOO) has released the Consortium For Execution of Rendezvous and Servicing Operations (CONFERS) BAA, number HR001117S0006.  the CONFERS BAA is a “solicitation for research to develop non-binding, consensus-based operational safety standards related to rendezvous and proximity operations (RPO) and on-orbit satellite servicing, executed through a collaborative private sector/Government consortium led by an experienced administrator or “Secretariat.”  The awardee will establish and manage a consortium, to include both private sector and government technical experts. CONFERS will leverage experience and best practices from both the private sector and Government and will make their published standards publicly available.

The Secretariat is responsible for leading the development and publication of non-binding, consensus-based operational safety standards related to RPO and servicing. The Secretariat will research current state-of-the art practices conducted across the private sector and Government, primarily through interaction with subject matter experts serving as CONFERS members. The Secretariat will synthesize the resulting research and collaboration efforts into clearly written operational safety standards. To that end, the Secretariat will identify, hire, and manage an existing qualified Standards Development Organization to codify and publish the standards developed by CONFERS. The SDO does not have to be specifically identified at the time of proposal, but options should be presented with pros and cons.

The Secretariat will also manage CONFERS as a forum where both private sector and U.S. Government technical experts from multiple relevant entities can discuss plans and issues for anticipated on-orbit servicing in the commercial sector.

The total amount anticipated to be awarded is $2.8M, with $800K for the first year/base period and $2M spread over the four next option periods. It is anticipated that thee will be a single award.  There was a Proposers Day on December 16, 2016.  Proposals are due February 6, 2017.

DARPA Proposers Day for the Next‐Generation Sensor for Measuring Winds Aloft in the Stratosphere Program

DARPATactical Technology Office (TTO) has announced the Proposers Day for theNext‐Generation Sensor for Measuring Winds Aloft in the Stratosphere Program through Special Notice DARPA-SN-17-14.

The objective of the Next‐Generation Sensor for Measuring Winds Aloft in the Stratosphere effort is to “assess and apply promising technology to rapidly mature and deploy a lightweight, low‐power sensor prototype capable of directly measuring wind speed and direction in a prescribed volume surrounding a stratospheric vehicle.  This effort assumes a reference system architecture composed of a stratospheric vehicle traveling with the prevailing winds at altitudes above 60,000 feet. A vehicle’s ability to effectively and efficiently steer by riding opportunistic wind vectors at different altitudes in the stratosphere is a key mission enabler that is dependent upon the availability of real‐time in‐situ measurements of wind speed and direction.   The effort is working to develop a compact, scanning onboard sensor prototype capable of delivering to the vehicle’s on‐board guidance system, in near‐real time (e.g., latency less than 15 minutes), a map of wind speed and direction in a volume of air surrounding it.  With this knowledge, the vehicle may achieve guidance with greater energy efficiency (i.e., a lesser quantity of smaller altitude changes) than what is otherwise possible with the sparse forecast data available today.”

The Proposers Day will be held on at the DARPA Conference Center on Thursday, January 19, 2017 from 9:00 AM to 12:30 PM.  Participants must register for the Proposers Day at:  Registration closes Friday, January 13TH at 5:00 PM ET. There will be an opportunity to meet individually with the Program Manager, Dr. Jeremy Palmer, after the conference.  To schedule an appointment email Rebecca Cervoni, with the subject of “Winds Aloft: One on One request.”  Requests must be received by the registration cutoff date.

DARPA Efficient Ultra-Compact Laser Integrated Devices (EUCLID) BAA

DARPA Microsystems Technology Office (MTO) has released the Efficient Ultra-Compact Laser Integrated Devices (EUCLID) BAA, number HR001117S0013.  The EUCLID program is soliciting research proposals for the development of highly efficient, ultra-compact, fiber-coupled laser diode modules suitable for pumping high power fiber lasers.

“High-energy laser (HEL) technology is of interest to the Military Services for its potential to provide new and enhanced capabilities such as silent engagement, deep magazine, scalable effects, and reduced logistics burdens. Until recently, these systems have been too large and heavy to be widely deployed on military platforms.

The laser diode pump modules (DPMs) which power the fiber laser amplifiers are presently a significant driver of system-level SWaP. Low module efficiency increases demand on the power system and the amount of waste heat that the thermal management system must dissipate. Because many modules are needed to power a single fiber amplifier, low packing density of the modules leads to a larger integrating structure and more electrical, cooling, and optical overhead. However, primary development drivers to date have been commercial market priorities, continuous operation for long time periods and long life rather than low size/weight and high efficiency. As a result, there is opportunity for significant size and weight reduction while increasing electrical-to-optical efficiency of DPMs.

The Efficient, Ultra-Compact, Laser-Integrated Diodes (EUCLID) program seeks to drive down the size and weight of diode pump module (DPM) technology while increasing electrical-to-optical efficiency and optimizing modules for dense packaging. To enable significant further near-term reduction in the SWaP of fiber laser arrays, the EUCLID BAA seeks proposals to develop and demonstrate DPMs consistent with SWaP, efficiency, and system compatibility metrics. Desired DPMs would be capable of being densely packaged with other identical modules in a configuration consistent with integration into line-replaceable high-power fiber amplifier assemblies. DPM output power of ≥ 650 W is desired to minimize packaging and overall system SWaP. The outputs of such modules, when combined, should also allow for efficiently pumping as wide a range of high power fiber amplifier output powers (between 1 kW and 3 KW) as possible. This would provide the flexibility to optimally tailor the array size and output power for various DoD HEL applications.”

Proposals are due February 15, 2017.  The program manager is Dr. Joseph Mangano.

DARPA Gamifying the Search for Strategic Surprise (GS3) Call for Submissions

DARPA DSO has released the Gamifying the Search for Strategic Surprise (GS3) Call for Submissions through special notice DARPA-SN-17-10.  DARPA DSO “invites executive summaries and full proposals for a research and development project to deliver an online environment that will enable productive collaboration among large numbers of experts and thinkers. The shared task of this group is to rigorously explore the trends and possible applications of emerging science and technology. All executive summaries and full proposals should be submitted in response to DSO’s Office-wide Broad Agency Announcement (BAA), DARPA-BAA-16-46, under the Human-Machine Systems Technical Area of Interest.”

GS3 aims to “apply a unique combination of online game and social media technologies and techniques to engage a large number of experts and deep thinkers in a shared analytic process to rapidly identify, understand, and expand upon the potential implications and applications of emerging science and technology. The program will also develop a mechanism to identify and quickly fund research opportunities that emerge from this collaborative process.”

The due date for executive summaries is December 9, 2016 and full proposals are due January 6, 2017.  The program manager is Dr. John Main.