(IWRP) Consortium Industry Day

Naval Information Warfare Systems Command (NAVWAR) and Naval Information  Warfare Centers (NIWC) Atlantic and Pacific announce the Information Warfare Research Project (IWRP) Consortium Quarterly Industry Day hosted by ATI—the IWRP
Consortium management firm—at the  Charleston Gaillard Center on Wednesday,  October 25, 2023. The event will include a keynote address from Mr. Bradley C. Punch,
PEO Digital deputy technical director; IWRP program and consortium updates; technical
briefs; and one-on-one breakout sessions with scheduled IWRP Consortium members.Technical briefs presented during the IWRP Consortium Quarterly Industry Day will
include a variety of topics focused on information warfare. It is anticipated that the topics will be the basis of upcoming Requests for Prototype Projects (RPPs) to  IWRP Consortium members. This is not an RPP, but for planning purposes only. A project will not be awarded from this announcement. In order to obtain more information regarding the below projects, you must be a member of the IWRP Consortium. For more information on becoming an IWRP Consortium member, please visit https://www.theiwrp.org. The purpose of this announcement is to provide members of the IWRP Consortium and  industry in general advanced notification of government intent.

The Government anticipates soliciting three (3) Request for Prototype Projects (RPPs)
for  white papers, enhanced white papers or full  proposals via N65236-22-9-0001. The RPP topics will include a technical brief and one-on-one breakout sessions. The RPP topics consist of the following:

1.24-LANT-1954 Tactical Networks Remote Monitoring (TNRM) 3.0: The government is seeking solutions to collect various data types on multiple afloat platforms for the purpose of monitoring a mix of networks, servers, storage devices, virtual machines, applications, and configurations. Once collected, the solution will need to visualize this collected data with dashboards and alerts locally for system administrator use on the afloat platform, as well as transfer the data over low bandwidth, high latency links, also dealing with Denied, Disrupted, Intermittent, and Limited (DDIL) conditions, to shore for a centralized visualization showing all afloat platforms with the ability to select a single afloat platform and be presented with the specific afloat platform dashboards and
alerts. The solution should require minimal-to-no afloat maintenance or system  administrator engagement. It should consider the use of Artificial Intelligence (AI), system modeling, and automation technologies as an iterative out year improvement to allow for automated proactive resolution of anomalies identified within afloat systems and networks.

2. 24-PAC-1994 Advanced Airborne Wideband HF Radio System:High-Frequency (HF) communications has been shown to be a powerful and resilient data and voice transport medium useful in obviating the impact caused by SATCOM loss in extremely harsh and/or spectrally contested environments. The Navy’s approach is to establish multi-level high frequency (HF) capabilities and dynamically interoperate them with using a cognitively managed Digital High Frequency Mesh (DHFM) network. Surface implementations have been produced and tested to this effect, but airborne equivalent capability was not available. This Statement of Work (SOW) will require the contractor to
modify/upgrade one of the existing airworthiness qualified HF transceivers to include wideband HF and interfaces for both the cognitive management system and a
VITA-49.2 WBHF modem.

3. 24-PAC-1995 Digital HF Mesh (DHFM)  Installation in Airborne Wing-Mounted Pods:
High-Frequency (HF) communications has been shown to be a powerful and resilient data and voice transport medium useful in obviating the impact caused by SATCOM loss in extremely harsh and/or spectrally contested environments. The Navy’s approach is to establish multi-level high frequency (HF) capabilities and dynamically interoperate them with using a cognitively managed Digital High Frequency Mesh (DHFM) network. This Statement of Work (SOW) will require the contractor to install prototyped Digital HF Mesh (DHFM) system products for an airborne qualified HF transceiver into a wing-mounted Pod, that will then be airworthiness certified in aircraft(s).

The government will be presenting three (3) Pre-Solicitation Collaborations (PSCs), which will include a short brief and one-on-one breakout sessions. The PSC topics consist of the following:

1.MyNavy HR Chatbot: The government is seeking to develop a “chatbot” that leverages large language model (e.g. ChatGPT), generating humanlike interaction based on context that triages customers’ HR-related issues and tracks a variety of back-end performance metrics.

2.Advanced Manufacturing for Electronic Components: NIWC Atlantic anticipates the  need to identify and test alternative rapid manufacturing of electronics options due to
obsolescence and continued supply chain constraints. The command would like to explore prototype solutions that provide advanced manufacturing capabilities to create circuit card assemblies, capabilities like additive manufacturing, and pick and place technology for example.

3.Modular Cabinet Design: The government is seeking a technical feasibility study (i.e. white paper) for a modular cabinet design that will include cable management recommendations, rear cabinet maintenance accessibility, and recommended dimensions based on current “Commercial off the Shelf” Information Technology. The government
will provide technical requirements. Based on the given requirements, the technical  feasibility study will provide a recommended integrated engineering solution to a  modular cabinet design implementing a Modular Open Systems Approach (MOSA).