Combat Equipment for Dismounted Soldier Feasibility Study Programme (CEDS FSP) Marek Kalbarczyk PO Land Systems Technologies
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 2
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 3
EDA at glance EDA VIDEO ON YOUTUBE EDA VIDEO AS FILE 4
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 5
CapTechs Technology domains & networks CAPABILITY, ARMAMENT & TECHNOLOGY Information Superiority Communication Information Systems & Networks System of systems, Battlelab and Modelling & Simulation Intervention & Protection Aerial Systems Ground Systems Naval Systems Ammunition Technology EUROPEAN SYNERGIES AND INNOVATION Materials & Structures Technologies for Components and Modules Innovative Research Radio Frequency Sensors Technologies Electro-Optical Sensors Technologies CBRN Protection and Human Factors Guidance & Control Energy WG The detailed technical coverage of each group is posted on the EDA WEBSITE 6
CapTechs Technology domains & networks CAPABILITY, ARMAMENT & TECHNOLOGY Information Superiority Communication Information Systems & Networks System of systems, Battlelab and Modelling & Simulation Intervention & Protection Aerial Systems Ground Systems Naval Systems Ammunition Technology EUROPEAN SYNERGIES AND INNOVATION Materials & Structures Technologies for Components and Modules Innovative Research Radio Frequency Sensors Technologies Electro-Optical Sensors Technologies CBRN Protection and Human Factors Guidance & Control Energy WG The detailed technical coverage of each group is posted on the EDA WEBSITE 7
CapTech Ground System (GS) The CapTech Ground Systems address topics through a system perspective that include, but not limited to, fully integrated, reconfigurable and upgradable platforms and mission systems, enhanced platform and occupants survivability and protection, enhanced autonomy and ground traffic insertion of unmanned ground vehicles, enhanced agility and performance of soldier systems as well as effective protection against all IEDs. CAPABILITY NEEDS: Enhancement in conducting Joint Operations, Maneuver, Employing Joint Firepower, Ensuring Force Protection & Security and ensure mobility and counter-mobility. TECHNOLOGIES/RESEARCH DOMAINES Land Vehicle Unmanned Ground Vehicle Soldiers Systems C-IED Camps Mobility PROJECTS/PROGRAMMES (e.g.) : Combat Equipment for Dismounted Soldier Systems Feasibility Study Programme [CEDS FSP] Hybrid Manned-Unmanned Plantooning [HyMUP] Study to investigate opportunities and challenges of lightweight constructions for Armoured Multi- Purpose Vehicles [L-AMPV] IED Detection Programme European Reference Open Architecture Standard for a modern Integrated Electronic Mission System in Military Land Vehicles [LAVOSAR II] 8
CapTech Ground Systems SRA topics Land Vehicles Fully integrated, reconfigurable and upgradable platforms and mission systems Mission tailored effectors to neutralize threats Enhanced agility, sustained functionality and silent operations High energy efficiency and capability Real-time 360 continuous awareness Enhanced platform and occupants survivability and protection Assured capability readiness and sustainment Unmanned Ground Vehicles Enhanced autonomy Ground traffic insertion Intelligent convoying and integrated C4ISTAR Better capabilities in multisystem context Soldier Systems Reduced weight of soldier s kit by 60% Enhanced agility and performance C-IED Mobility, Camps Effective protection against all IEDs and land mines including IED detection and identification while on move Enhanced round-the-clock security of static and deployable camps 9
Ground vehicle System Architecture & Integration LAVOSAR I LAVOSAR II Fully integrated, reconfigurable and upgradable platforms Mobility IOPM L-AMPV Enhanced agility, sustained functionality and silent watch Energy PMLP Higher energy efficiency and capability IAPUNIT 2011 2016 10 2021
Unmanned Ground Vehicle Autonomy & Intelligence SAM UGV UGS LIS PASEI Faster reaction and reduced burden of supervision Ground Traffic Insertion SafeMUVe Easiness of deployment and use Multi-UGV systems MuROC HyMUP Intelligent convoying & integrated C4ISTAR System Architecture UGTV SUGV Better capabilities in multi-system context 2011 2016 11 2021
Soldier Systems Survivability Situational Awareness Lethality Power Supply: efficiency & portability ACCLITEXSYS LiVEST ACAMS ihelmmat COBID OBSURV MUMSIS PT SPER-PACK EH STASS CEDS Conclusions study STASS 2 Reduced weight of soldier s kid Enhanced agility and performance 2011 2016 12 2021
Other battle field topics C-IED IEDDET Effective protection at speed against all IEDs NLW HPM NLAOS Tailored effectors to neutralize threats as appropriate 2011 2016 13 2021
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 14
CEDS Common Core based on CSR 15
Combat Equipment for Dismounted Soldier Feasibility Study Programme (CEDS FSP) CEDS Programme Programme type: Cat B cms: FI, AT, DE, ES, FR, PT, SE, RO Budget: 2,8 M Aim: Identify possibilities offered by innovative technologies for soldier systems: - Observation - Energy - Human factors - Survivability Timeframe: Jan. 2013 Dec 2015 Status: running Expected project results: Demonstration of state of the art technological solution in all CEDS FSP domains Military benefits: - Update of the Common Staff Requirements (CSR) for CEDS 16
CEDS FSP projects CEDS Programme OBSERVATION OBSERV Precision Targeting ENERGY SPER-PACK Energy Harvesting HUMAN FACTOR MUMSIS SURVILABILITY 17 ACCLITEXSYS LiVEST ihelmmat ACAMS
OBSURV Observation under reduced visibility CEDS Programme Aim: Ensure observation capability under reduced visibility conditions for dismounted soldier. Integration aspects for a complete soldier system will be addressed. Expected project results: - Recommendations for next steps for implementation of the technology in soldier systems. 18
Conceptual solutions Schematics for an monocular with SWIR/LWIR fusion Schematics for a Binoculars with SWIR/LWIR fusion 19
Simulation results Comparison for visibility performances for observation through fog for 120mm SWIR and LWIR Binocular/Scope, human target 20
Simulation results Comparison for visibility performances for observation through fog for 27mm SWIR and LWIR Monocular, tank target 21
Conclusions No (at least yet) universal solution that works in all conditions of reduced visibility Active devices are increasing significantly the probability of detection Although different combination of sensors and the use of image fusion can be beneficial in poor visibility, image processing in this case is limitative. These can be prohibitive regarding size and power consumption. The problem is still open, but given the fast progress in IT we expect that soon a feasible solution to emerge on the market. 22
CEDS-FSP PT - Precision Targeting Study CEDS Programme Aim: Define an open reference architecture and provide recommendations for the development of future Fire Control Systems. Military benefits: Enhanced interoperability, modularity and flexibility for procurement and fielding of new systems. Project results: - Required critical functions fully analyzed - Technology concept formulated - Open Architecture defined - Standardization of architecture would facilitate the development of more effective devices by focusing on specific components instead of developing full proprietary architectures. - Potential synergies detected when integrating command and control systems such as navigation aids, target designation, fratricide fire 23
SPER PACK - Soldier Portable Energy Reserve PACK CEDS Programme Aim: Propose a preliminary design of a flexible power supply system for the dismounted soldier Military benefits: - Allow soldiers to monitor, control and distribute available energy Project results: - Soldier power usage profiles - Compiled and detailed functional and performance requirements for a power system - Provided overview of available and promising technologies - Breakdown into SW/HW and functional relations - Preliminary design of HW and SW components as well as interfaces 24
Energy Harvesting CEDS Programme Aim: The aim of the study is to demonstrate the technical feasibility of a system for energy harvesting and its use as a part of the personal equipment of a soldier on the battlefield. Military benefits: - Provide back-up system to ensure a limited consumer operation over a shorter period and reduced service provision Project progress: - State of the art of energy harvesting completed - Concept design completed - Proposed prototypes for testing phase: - npower PEG (Personal Energy Generator) - Thermoelectric mess kit - MFC (Macro Fiber Composite) Modul optional: 25
MUMSIS Multi-Modal Soldier Interface System CEDS Programme Aim: - Develop a demonstrator of a wearable, multimodal soldier system that ensures the timely delivery and collection of reliable and accurate information in a context adaptive way and supports communication within the chain of command; - Evaluate the system from the human factors point of view; - Define system requirements for a proposed soldier system Military benefits: Increase soldier situational awareness without overwhelming information Results: - Two demonstrators: urban and arctic - Tested in field environment - Reconnaissance operation - Building clearing operation: 26
Visionary MUMSIS system architecture 27
ACCLITEXSYS - ACCLImatizationTEXtile SYStem CEDS Programme Aim: To study the conceptual development and evaluation of different technological approaches for the stabilization of the soldier s body temperature Military benefits Improvement of thermal comfort and soldier performance Cold environment Temperature range -19ºC - 6ºC CO +28ºC +39ºC A3 28 Hot environment
LiVEST Ultra-light Weight Bullet-proof Vests CEDS Programme Aim Illustrate the feasibility in developing of a body armour protection with high performance level as well as comfort benefits, trying to reduce weight of ballistic protection. Military benefits New ultra light ballistic protection vests based on new 3D structures. Project results - 3D structures, in ballistic vests: - As spacer: promising technology for termophysiological comfort, user positive evaluation in ergonomic tests. - Soft ballistic panels with integrated 3D high performance fibers: back face signature reduced maintaining weight, but V50 apparently reduced. - Hard plates monitoring system: - Sensors for monitoring integrity of hard plates: difficulties to avoid false positives in damage detection with the technology employed. - Feasible, but issues to be solved before achieving operational results. 29
CEDS Programme ihelmmat - Innovative HELMet MATerials for soldier head protection Aim: Conceptual development and evaluation of different techniques for improving head protection of dismounted soldier in battlefield conditions Military benefits: Improving the ballistic performance of the helmet without decreasing the comfort. Project results: - Reinforcement of helmet shell using CNT - Similar performance as current solutions - Raw material cost increment ( 10 %) - Overmoulding processing - Overmoulding of injected thermoplastic fabrics, and incorporation of CNT is feasible, although high initial costs. - CFD simulation - Results validate use of thermal camouflages, shell 30 thermal shields and phase change materials inner pads to keep temperature and humidity under acceptable and comfortable values.
ACAMS - Adaptive Camouflage for the Soldier CEDS Programme Aim: Identify, analyze and evaluate possible active and passive methods for adaptive camouflage Military benefits: Increase the survivability of soldier by a camouflage system well adapted to the background, light conditions, weather, threats and mission. Project results: Concepts for adaptive camouflage in a realistic scenario in European forest/urban terrain have been shown. A proof of concept poncho has been displayed in hardware. However, further work is needed to develop the concepts and present a useful demonstrator. 31
Conclusion study CEDS Programme AIM: To screen residual risks of CSR after FSP studies have been performed To identify readiness level of technologies to define a common core and common modules for all relevant capability areas To identify risks of certain CSR, which cannot be reduced by known technology 32
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 33
Standard Architecture for Soldier Systems (STASS) Power Project addresses - design a Standard Architecture for Soldier Systems with focus on power, - considering approaches and lessons learned from already fielded European systems, - identifying European requirements for such an Architecture, - seeking synchronization with and complement similar activities (e.g. NATO, UK), Objectives - reduce the whole life cost of ownership. - applicability to current and future systems. - interfaces that comply with publically available open standards. - promote third party competition by providing modular components. - conducting of cost-benefit analysis for the development and the implementation of such a standard, and - promoting the architecture to stakeholders. Status - running - promote innovation and diversity. - allow incremental improvement of systems. - make best use of commercial-off-the-shelf products (COTS). 34 Contractors: DEU: RDE, Fhg ICT
Outline 1. EDA at glance 2. Introduction to CapTech Land 3. CEDS FSP overview 4. STASS study 5. CapTech assessment of technology gaps 35
Technology gaps assessment Topic Cluster Technology gap Criticality SOLDIER SYSTEMS Survivability Situational Awareness Lethality Power Supply: Efficiency & Port. Lightweight and flexible ballistic protection 2 Protection against thermo baric pressure / effect 1/2 Adaptive camouflage 1 Sniper detection systems 1 Physiological monitoring 1 Blue Force Tracking, Positioning and Orientation (indoors) 2 Augmented reality for situation awareness 1 Observation under reduced visibility 1/2 Less-than-lethal weapons 1 Portable blast-enhanced weapons (incl. thermobaric) 1 Improved Precision Targeting 2 Low-weight high capacity batteries 2/3 Miniaturized Fuel Cells 2 Power efficiency 2 Energy Harvesting 2 Soldier Mobility Exoskeletons 36 and Robotics equipment 1
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