Saturday, May 7, 2016

ONR seeks Comm Tech Concepts to support FORCEnet

FY 17 Communications and Networking Discovery and Investigation - Federal Business Opportunities: Opportunities

: N00014-16-S-BA11

: Presolicitation
:
Added: May 06, 2016 1:51 pm
Title: FY 17 Communications and Networking Discovery and Investigation 
 Sol. #:             N00014-16-S-BA11
 Agency:             Department of the Navy
 Office:             Office of Naval Research
 Location:           ONR
 Posted On:          May 06, 2016 1:51 pm
 Base Type:          Presolicitation
 Link:  https://www.fbo.gov/spg/DON/ONR/ONR/N00014-16-S-BA11/listing.html


United States Navy: Sea Power 21
Communications technology that can provide seamless, robust, connectivity is at the foundation of the Sea Power 21 and FORCEnet Vision "... to have the right information, at the right place, at the right time ..." The performance of Command and Control (C2) systems and decision making at all levels of command depend critically on reliable, interoperable, survivable, secure, and timely communications and networking, and the availability of high capacity multimedia (voice, data, imagery) communication networks is fundamental to nearly all Department of Navy missions.

The current evolution of naval warfighting from a platform-centric to a network-centric paradigm depends on successfully meeting the implied need for significantly enhanced communications and networking capabilities of C2, sensor and weapon systems. These systems are deployed on a variety of platforms and users, both manned and unmanned, operating under challenging battlefield conditions (lack of infrastructure, mobility, spectrum, interference, multipath, atmospherics, size/weight/power constraint, etc.) in different environments (space, terrestrial and undersea).

The goal of the Communications and Networking Program within the Office of Naval Research (ONR 311) is to support the FORCEnet vision by developing measurable advances in technology that can directly enable and enhance end-to-end connectivity and quality-of-service for mission-critical information exchange among such widely dispersed naval, joint, and coalition forces. The vision is to provide high throughput robust communications and networking to ensure all warfighters -- from the operational command to the tactical edge -- have access to information, knowledge, and decision-making necessary to perform their assigned tasks.

Objective and Areas of Interest:

White papers for potential FY17 Exploratory Development/Applied Research (Budget category 6.2) projects are sought under the following focus areas:

  1. Compact and deployable circular polarization antenna in the UHF-, X-, or Ka-, band with high radiation efficiency and adaptive gain pattern for multi-U form factor cube-satellite communications.
  2. Near-capacity (Shannon) wideband communications mode operation over multi-channel AESA pulsed radar hardware chain (beamformer - T/R module - antenna array). Potential challenges for high bit rate communications include, amongst others, novel coding/modulation schemes resilient to saturated nonlinear power amplifier regimes, exploitation of pulse-to-pulse phase coherence and MIMO.
  3. Enhanced waveform and diversity techniques including innovative tracking for mobile troposcatter (C- to Ku- bands). S&T focus on solutions that can reuse existing apertures, minimally impact HW, and permit modular upgrade.
  4. Robust and (throughput) efficient wireless medium access mechanisms for mobile LPI/LPD network communications operating under high dynamic range, and high-interference rejection (e.g., spectral underlay), receive conditions.
  5. Mechanisms to guarantee delivery of traffic across a multi-hop ad-hoc network within a specified latency; optimization of traffic based on multiple parameters (e.g., priority, latency, jitter, etc.); multi-path TCP implementations that are cognizant of variations in path characteristics and traffic priority, and do not impact application performance; store/forward and disruption-tolerant network implementations across a cipher-text core.

Related/Background:

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