Public:ARHUDFM Traction: Difference between revisions

From Wiki Furtherium
VisualWikitext
Line 352: Line 352:
Define $dy = -5 # shift text to bottom side of bar
Define $dy = -5 # shift text to bottom side of bar
Define $start = 2020
Define $start = 2020
Define $end = 2024
Define $end = 2026
Define $now = 01/{{CURRENTMONTH}}/{{CURRENTYEAR}}
Define $now = 01/{{CURRENTMONTH}}/{{CURRENTYEAR}}


Line 493: Line 493:
   bar:process0204 width:10
   bar:process0204 width:10
     textcolor:NAME at:01/01/2021 shift:(425,$dy) text:Financial model
     textcolor:NAME at:01/01/2021 shift:(425,$dy) text:Financial model
     color:PROCESS from:11/04/2023 till:28/04/2023
     color:PROCESS from:11/04/2023 till:$now


   bar:process0205 width:10
   bar:process0205 width:10
     textcolor:NAME at:01/01/2021 shift:(420,$dy) text:Production scheme
     textcolor:NAME at:01/01/2021 shift:(420,$dy) text:Production scheme
     color:PROCESS from:04/05/2023 till:16/05/2023
     color:PROCESS from:04/05/2023 till:$now


   bar:process0206 width:10
   bar:process0206 width:10
     textcolor:NAME at:01/01/2021 shift:(390,$dy) text:Business processes flow
     textcolor:NAME at:01/01/2021 shift:(390,$dy) text:Business processes flow
     color:PROCESS from:24/05/2023 till:08/06/2023
     color:PROCESS from:24/05/2023 till:08/10/2023


   bar:process0207 width:10
   bar:process0207 width:10
     textcolor:NAME at:01/01/2021 shift:(460,$dy) text:Pitch Deck & Demo
     textcolor:NAME at:01/01/2021 shift:(460,$dy) text:Pitch Deck & Demo
     color:PROCESS from:16/07/2023 till:02/08/2023
     color:PROCESS from:16/07/2023 till:28/06/2024


   bar:process0208 width:10
   bar:process0208 width:10
     textcolor:NAME at:01/01/2021 shift:(430,$dy) text:Fundraisong, Pre-Seed Round
     textcolor:NAME at:01/01/2021 shift:(430,$dy) text:Fundraisong, Pre-Seed Round
     color:PROCESS from:21/09/2023 till:$now
     color:PROCESS from:08/07/2024 till:$now


# problem-solution_fit
# problem-solution_fit
Line 564: Line 564:
     color:TRL2 from:29/08/2021 till:07/12/2021
     color:TRL2 from:29/08/2021 till:07/12/2021
     color:TRL3 from:07/12/2021 till:27/01/2022
     color:TRL3 from:07/12/2021 till:27/01/2022
     color:TRL4 from:27/01/2022 till:17/04/2022
     color:TRL4 from:27/01/2022 till:$now


   bar:milestone0402 width:10
   bar:milestone0402 width:10
Line 580: Line 580:
     textcolor:NAME at:01/01/2021 shift:(490,$dy) text:User Interface
     textcolor:NAME at:01/01/2021 shift:(490,$dy) text:User Interface
     color:TRL1 from:21/07/2023 till:19/08/2023
     color:TRL1 from:21/07/2023 till:19/08/2023
     color:TRL2 from:19/08/2023 till:$now
     color:TRL2 from:19/08/2023 till:21/01/2024
    color:TRL3 from:21/01/2024 till:14/06/2024
    color:TRL4 from:14/06/2024 till:$now


   bar:milestone0405 width:10
   bar:milestone0405 width:10
Line 629: Line 631:
     color:INVENTION from:04/03/2023 till:16/04/2023 #three-sensor video camera (UHD, HDR, SWIR) concept
     color:INVENTION from:04/03/2023 till:16/04/2023 #three-sensor video camera (UHD, HDR, SWIR) concept
     color:INVENTION from:08/05/2023 till:29/05/2023 #fading pads of the screen based on a polymer composition of electrochromic material with transparent electrically conductive layer tracks
     color:INVENTION from:08/05/2023 till:29/05/2023 #fading pads of the screen based on a polymer composition of electrochromic material with transparent electrically conductive layer tracks
    color:INVENTION from:11/11/2023 till:16/12/2023 #DLP implementation concept


   bar:process0416 width:10
   bar:process0416 width:10
Line 638: Line 641:
     color:INVENTION from:10/07/2022 till:30/07/2022 #Identification Friend-or-Foe methods, appearance, transponder
     color:INVENTION from:10/07/2022 till:30/07/2022 #Identification Friend-or-Foe methods, appearance, transponder
     color:INVENTION from:12/08/2022 till:04/10/2022 #embedded SDR scanner concept
     color:INVENTION from:12/08/2022 till:04/10/2022 #embedded SDR scanner concept
     color:INVENTION from:03/12/2022 till:09/01/2023 #Software Defined Antenna Rx / Tx, 2 MHz - 8 GHz, 48 patch antennas (highly‐directional RF beams, fixed & hopping frequencies) for Comms, RF scanner, Radio Direction Finding, Radar Detection, Passive Radar, Drone Detection, Remote Control
     color:INVENTION from:03/12/2022 till:09/01/2023 #Software Defined Antenna Rx / Tx, 2 MHz - 8 GHz, 64 patch antennas (highly‐directional RF digital beams, fixed & hopping frequencies) for Comms, RF scanner, Radio Direction Finding, Radar Detection, Passive Radar, Drone Detection, Remote Control
     color:INVENTION from:06/03/2023 till:20/03/2023 #Handheld metal re-radiation radar concept
     color:INVENTION from:06/03/2023 till:20/03/2023 #Handheld metal re-radiation radar concept
     color:INVENTION from:17/04/2023 till:29/04/2023 #Radar warning receiver concept
     color:INVENTION from:17/04/2023 till:29/04/2023 #Radar warning receiver concept
     color:INVENTION from:10/07/2023 till:31/07/2023 #built-in drone & robot & unmanned vehicle remote control
     color:INVENTION from:10/07/2023 till:31/07/2023 #built-in drone & robot & unmanned vehicle remote control
     color:INVENTION from:03/08/2023 till:19/08/2023 #AI-based chat, mental clusterization, auto-reply algorithms
     color:INVENTION from:03/08/2023 till:19/08/2023 #AI-based chat, mental clusterization, auto-reply algorithms
    color:INVENTION from:24/08/2023 till:16/09/2023 #Gunfire Locator concept
    color:INVENTION from:18/12/2023 till:21/01/2024 #Hardware Architecture concept
    color:INVENTION from:12/02/2024 till:05/05/2024 #CPU Intel Core i7 14-Gen, Chipset Intel 700 implementation concept
    color:INVENTION from:04/06/2024 till:25/06/2024 #Intel Gaudi 3 AI Accelerator, NPU Loihi 2 implementation concept


   bar:process0417 width:10
   bar:process0417 width:10
Line 654: Line 661:
     color:INVENTION from:25/07/2023 till:16/08/2023 #wearable automatic tourniquets for emergency stoppage of acute bleeding in the limbs with built-in sensors for monitoring vital signs
     color:INVENTION from:25/07/2023 till:16/08/2023 #wearable automatic tourniquets for emergency stoppage of acute bleeding in the limbs with built-in sensors for monitoring vital signs
     color:INVENTION from:26/08/2023 till:04/09/2023 #elastic belt with pockets, automatic infusion therapy (fluid resuscitation) system (NC micro solenoid check valve, pre-pressured container for plasma substitute and anticoagulant) with integrated ECG sensors and defibrillator electrodes, automatic defibrillator
     color:INVENTION from:26/08/2023 till:04/09/2023 #elastic belt with pockets, automatic infusion therapy (fluid resuscitation) system (NC micro solenoid check valve, pre-pressured container for plasma substitute and anticoagulant) with integrated ECG sensors and defibrillator electrodes, automatic defibrillator
    color:INVENTION from:09/09/2023 till:16/09/2023 #microphone array concept


# resources
# resources

Revision as of 12:29, 13 July 2024

Traction

U.S. Defense ProgramsU.S. Defense ProgramsPublic:ARHUDFM FAQFurtherium, Inc.Public:ARHUDFM Features Summary

Version 2

U.S. Defense ProgramsU.S. Defense ProgramsPublic:ARHUDFM FAQFurtherium, Inc.Public:ARHUDFM Features Summary


TRL NASA usage DoD usage[1] European Union
1 Basic principles observed and reported Scientific research begins to be translated into applied R&D Basic principles observed
2 Technology concept and/or application formulated Invention begins. Once basic principles are observed, practical applications can be invented Technology concept formulated
3 Analytical and experimental critical function and/or characteristic proof-of concept Active R&D is initiated. This includes analytical studies to produce code and laboratory studies to physically validate analytical predictions of separate technology HW/SW elements Experimental proof of concept
4 Component and/or breadboard validation in laboratory environment Basic technological components are integrated to establish that they will work together. System SW architecture development initiated to include interoperability, reliability, maintainability, extensibility, scalability and security issues Technology validated in lab
5 Component and/or breadboard validation in relevant environment The basic technological HW/SW components are integrated with reasonably realistic supporting elements so that they can be tested in a simulated environment Technology validated in relevant environment (industrially relevant environment in the case of key enabling technologies)
6 System/subsystem model or prototype demonstration in a relevant environment (ground or space) Examples include testing a prototype in a high-fidelity lab environment or a live/virtual experiment or in a simulated operational environment Technology demonstrated in relevant environment (industrially relevant environment in the case of key enabling technologies)
7 System prototype demonstration in a space environment Prototype near, or at, planned operational system. Algorithms run on processor of the operational environment integrated with actual external entities. SW support structure in place. SW releases are in distinct versions. Frequency and severity of SW deficiency reports do not significantly degrade functionality or performance. Verification, Validation and Accreditation (VV&A) completed System prototype demonstration in operational environment
8 Actual system completed and "flight qualified" through test and demonstration (ground or space) Technology and SW has been proven and demonstrated to work in its final form and under expected conditions. In almost all cases, TRL represents the end of true system development. Examples include developmental test and evaluation (T&E) of the system in its intended weapon system to determine if it meets design specifications System complete and qualified
9 Actual system "flight proven" through successful mission operations In almost all cases, this is the end of the last “bugfixing” aspects of system development. Examples include using the system under operational mission conditions. SW releases are production versions and configuration controlled. Frequency and severity of SW deficiencies are at a minimum Actual system proven in operational environment (competitive manufacturing in the case of key enabling technologies; or in space)

Roadmap

Public:ARHUDFM Features Summary

Design Development & Algorithm Architecture: Ada Lovelace[2] Team

Device design, GUI, VUI, Apps algorithms, Demos, Videos, Animations

  • Prio #1: Research and description of the principle of operation, description of the technology application, computer-added design
  • Prio #2: Technology functionality demo, specific functionality description, GUI demo, lab experimental setup

Mechanical Engineering: Stephanie Kwolek[3] Team

  • Prio #1: [TRL 5-6] Prototype: based on 3D print, vacuum casting, vacuum unfusion
  • Prio #2: [TRL 7] MVPα: vacuum casting, vacuum unfusion, injection moulding, manual assembly
  • Prio #3: [TRL 8] MVPβ: vacuum casting, vacuum unfusion, injection moulding, manual assembly
  • Prio #4: [TRL 9] MMPδ: manufacturing process automation, robotic assembly, add-ons (auto tourniquets, Care Under Fire set, SCBA integration, external aramid cover, continuous wind сapture impellers, software defined antenna, handheld metal re-radiation radar, optional battery, digital sight)
  • Prio #5: MMPγ: manufacturing & assembly & logistic process upgrade

Optical Engineering: Katharine Blodgett[4] Team

Light guide, Beam splitting prisms, Dichroic mirror, Optical coatings, Fading pads

  • Prio #1: [TRL 5-6] Prototype: optical scheme, light guide, dichroic mirror, fading pads
  • Prio #2: [TRL 7] MVPα: beam splitting prisms for 3 cam sensors, optical coatings
  • Prio #3: [TRL 8] MVPβ:
  • Prio #4: [TRL 9] MMPδ:
  • Prio #5: MMPγ:

Electronics Engineering: Ida Hyde[5] Team

Schematics and PCBs for motherboard, projector, IFF Transponder, SDR, SDRS, PCSR, Digital sight

  • Prio #1: [TRL 5-6] Prototype: based on Raspberry Pi 5B, Texas Instruments DLPDLCR2000EVM
  • Prio #2: [TRL 7] MVPα: motherboard chipset Intel Z790[6] or HM770[7], CPU Intel Core i7-14700K[8][9], DLP PCB, SDRS PCB, IFF PCB
  • Prio #3: [TRL 8] MVPβ: SDR2 PCB, add-on (software defined antenna, optional battery, continuous wind capture impellers)
  • Prio #4: [TRL 9] MMPδ: add-on (auto tourniquets, Care Under Fire set, handheld metal re-radiation radar)
  • Prio #5: MMPγ: add-on (digital sight)

Software Development: Hedy Lamarr[10] Team

SDR, SDR Scan, RDF, Radar Detection, IFF, Networks, Remote control

Software Development: Grace Hopper[11] Team

System Integration, DevOps, Maps, VBS, Sensors

Software Development: Evelyn Berezin[12] Team

IMS, Chat, Workgroups, Tasks, Mission planning

Software Development: Barbara Askins[13] Team

Computer Vision, Computer Audition, AI/ML, AI/DL, AI/NLP, AI/ANN

Networking: Margaret Hamilton[14] Team

Mentor Relations, Pitches, Updates

  • Prio #1: Mentor Relations, Updates
  • Prio #2: Business angels (pre-seed round)
  • Prio #3: Business angels & Venture capital (seed round)
  • Prio #4: Venture capital (round A)
  • Prio #5:

Customer & Business Development: Barbara Liskov[15] Team

Requests, eMails, PR, Meetings

  • Prio #1: Innovation programs research, requests, eMails, meetings
  • Prio #2: Collaboration research, PR
  • Prio #3: Proving ground testing
  • Prio #4: Pilot programms

Future ideas

Further reading

FAQ

See also

Public External Sections: Public Wiki Sections: Public Wiki Sections: Not-Public Wiki Sections:

Note: Unless otherwise stated, whenever the masculine gender is used, both men and women are included.

See also product details

Hardware Details: Functional Apps Details: Executive Apps Details: Service Apps Details:


References

  1. Dr. John Niemela and Dr. Matthew Fisher, The Use of Technology Readiness Levels for Software Development
  2. Wikipedia, Ada Lovelace
  3. Wikipedia, Stephanie Kwolek
  4. Wikipedia, Katharine Burr Blodgett
  5. Wikipedia, Ida Henrietta Hyde
  6. Intel Z790 Chipset
  7. Intel HM770 Chipset
  8. Intel, 14th Gen Core i7
  9. Intel Core i7 13th Gen HX (for mobile devices) Series, i7-13850HX Processor
  10. Wikipedia, Hedy Lamarr
  11. Wikipedia, Grace Hopper
  12. Wikipedia, Evelyn Berezin
  13. Wikipedia, Barbara Askins
  14. Wikipedia, Margaret Hamilton
  15. Wikipedia, Barbara Liskov

External links

Retrieved from "https://wiki.furtherium.com/w/index.php?title=Public:ARHUDFM_Traction&oldid=7331"