certification process
Transcription
certification process
ITALIAN MINISTRY OF DEFENCE Secretariat General for Defence - National Armaments Directorate AIR ARMAMENTS DIRECTORATE Lt. Gen. Francesco LANGELLA DAA Vice Technical Direction [email protected] +39 06 4986 5367 Aix-En Provence, 25 September 2013 1 SUMMARY DIRECT NATIONAL CONTRACT M 346 INTRODUCTION CERTIFICATION PROCESS M 346 CERTIFICATION RESULTS FMS CASE PREDATOR B CERTIFICATION PROCESS LESSONS LEARNED CONCLUSIONS 2 M 346 INTRODUCTION Operational need issued by Italian Air Staff Contract negotiated, signed and managed by IT MoD System designed, produced and maintained by Alenia Aermacchi (AA) System Design Responsibility (SDR) 3 CERTIFICATION PROCESS AIRWORTHINESS REQUIREMENTS COMPLIANCE PERFORMANCE REQUIREMENTS MILITARY TYPE CERTIFICATION Formal acknowledgement by the D.A.A. of the design compliance to the performance and safety requirements provided by the technical specification. 4 CERTIFICATION PROCESS AIRWORTHINESS REQUIREMENTS PERFORMANCE REQUIREMENTS Defined by DAA on the basis of: Provided by Air Staff and defined by DAA on the basis of: IT IT EMAR Process Process Certification Basis Requirements FIT FOR FLIGHT EMAR X X FIT FOR PURPOSE 5 CERTIFICATION PROCESS Importance of performance certification (qualification) Civil world • EASA engaged in safety only • • Commercial company interested in performance • Military world Weapon systems have to perform as required taking into account safety Performance certification (qualification) allows discrepancy identification at early stage 6 CERTIFICATION PROCESS AIRWORTHINESS CONDITION REQUIREMENTS FUNCTIONALITY AND ESSENTIAL MINIMAL PERFORMANCE REQUIRED TO MAKE EACH AIRCRAFT SYSTEM SAFE AIRCRAFT RELIABILITY IN TERMS OF CUMULATIVE PROBABILITY OF CATASTROPHIC EVENTS PER FLIGHT HOUR 7 CERTIFICATION PROCESS Importance of performance certification (qualification) Example • Threshold requirement: minimum range with minimum payload • During performance certification (qualification) process, design range and payload are assessed If they are not met, design change is required • 8 CERTIFICATION PROCESS Aircraft definition Annex to EASA regulation Civil EMAD – 1 Definitions Military 9 M 346 CERTIFICATION RESULTS • SDR clearly identified in Alenia Aermacchi (AA): • Access to design • Ability to develop modifications • System Configuration control • Continuous airworthiness management • Full visibility on project documentation since the beginning: capability to request design change Certification Basis: Mil-Hdbk-516b tailored for M346 program Artifacts produced by AA, verified by DAA Certification issued by DAA • • • 10 FMS Case Predator B (MQ9A) System designed by GA-ASI company Contract negotiated, signed and managed by USG LOA between USG and IT MoD FMS case unique acquisition strategy allowed by USG 11 PREDATOR B USG is both: • Contract agent • Commercial aspects management • Preferred communication channel with company • Recognized Airworthiness Authority • USG requests and evaluates AW artifacts issued by GA-ASI before passing to IT MoD • Certification Basis Mil Hdk 516B • USG provides airworthiness recommendations • Certification responsibility remains on IT MoD 12 PREDATOR B USG SDR Authority GA-ASI Design and configuration Authority SDR Authority: provides / evaluates artifacts and controls the configuration (HW, SW and TOs) 13 PREDATOR B Information flow Italian MoD USG GA-Asi Advantages • USG acts as Military Airworthiness Authority evaluating Company artifacts Disadvantages • No direct link with company, communication flow slower but sure 14 CERTIFICATION PROCESS • At the time of FMS signature, system design was completed • DAA certification process unable to affect performance • Benefit from USG verification of AW artifacts • USG recommendations accepted even if specific limitations imposed by IT MoD in accordance to IT rules and safety requirements • Cleared flight in low density population area (max 39 inhab/km2) 15 LESSON LEARNED Essential to write a contract “line” specifying all needed airworthiness requirements: • National rules prevails • IT process: all risks have to be mitigated • USG process: residual risk can be accepted at proper level • Specific national safety requirements imposed • IT rules defines cumulative probability of catastrophic event as 1E-6, for Predator class (limitation on density population area) • System Design Responsibility clearly identified 16 CONCLUSIONS FMS and Direct Commercial acquisition two viable way of acquisition FMS DCS Company AW artifacts verified by Direct link with company Full insight in the project a recognized authority Full authority on contract – Communications with company Company artifacts to be through USG evaluated without any USG first and then company have support to understand IT requirements Product is a “COTS”: performance to be accepted as it is 17 ITALIAN MINISTRY OF DEFENCE Secretariat General for Defence - National Armaments Directorate AIR ARMAMENTS DIRECTORATE Lt. Gen. Francesco LANGELLA DAA Vice Technical Direction [email protected] +39 06 4986 5367 Aix-En Provence, 25 September 2013 18 Back up Slides 19 MILITARY TYPE QUALIFICATION “Certification and Qualification of military aircraft and pertaining systems - Suitability to installation” Edition 8th May 2013 REGULATES THE PROCEDURES CONCERNING: THE MILITARY AIRCRAFT TYPE QUALIFICATION FOR PERFORMANCE AND CERTIFICATION FOR AIRWORTHINESS THE QUALIFICATION AND SUITABILITY TO INSTALLATION OF PERTAINING SYSTEMS. Go back 20 MILITARY QUALIFICATION PROCESS MILITARY TYPE QUALIFICATION DESIGN COMPLIANCE WITH SPECIFICATION AIRWORTHINESS & PERFORMANCE REQUIREMENTS AIRWORTHINESS REQUIREMENTS PERFORMANCE REQUIREMENTS + A/C vs AGE COMPATIBILITY REQUIREMENTS Go back 21 MILITARY TYPE QUALIFICATION DESIGN QUALIFICATION PROCESS THE AIRWORTHINESS OF A TYPE DESIGN IS VERIFIED AS FOLLOWS: 1. DEFINITION OF THE TYPE IN ACCORDANCE WITH APPROVED DOCUMENTATION (DESIGN STANDARD) 2. DEFINITION OF THE MEANS OF COMPLIANCE (MOC) TO DEMONSTRATE EACH REQUIREMENT, ACCORDING TO A QUALIFICATION PROGRAM PLAN 3. DEMONSTRATION OF COMPLIANCE WITH SAFETY REQUIREMENTS Go back 22 TYPE DESIGN DEFINITION TYPE DESIGN DOCS DESIGN STANDARD The drawings and specifications, and a listing of those drawings and specifications, necessary to define the configuration and the design features of the air system shown to comply with the airworthiness requirements. Information on dimensions, materials, materiel properties, and processes necessary to define the structural strength of the product. Any airworthiness limitations required for safe operation and maintenance. Any other data necessary to allow, by comparison, the determination of the airworthiness of later products of the same type. Go back 23 M.O.C. DEFINITION AIRWORTHINESS REQUIREMENTS COMPLIANCE PERFORMANCE REQUIREMENTS VERIFICATION PROCESS Go back 24 COMPLIANCE WITH THE REQUIREMENTS VERIFICATION PROCESS TECHNICAL SPECIFICATION COMPLIANCE DEMONSTRATION IS VERIFIED BY THE FOLLOWING PROCESS: • • • • • • • • • MOC 1 Description MOC 2 Analysis / Calculation MOC 3 Safety Analysis MOC 4 Laboratory tests /Rig tests MOC 5 Aircraft on ground tests MOC 6 Aircraft in flight tests MOC 7 Inspection MOC 8 Simulation MOC 9 Equipment Declaration of Design & Performance – DDP • MOC 10 Similarity Go back 25 AIRWORTHINESS - DEFINITIONS AIRWORTHINESS = The ability of an aircraft or other airborne equipment or system to operate in flight and on ground without significant hazard to aircrew, ground-crew, passengers (where relevant), other airspace users or to other third parties. This definition includes safe On-aircraft maintenance activities.. CONTINUING AIRWORTHINESS = All the tasks to be conducted to verify that the conditions under which a type certificate has been granted are still valid to ensure the safety of the product at any time. Any required corrective measure shall be taken without undue delay and applicable instruction(s) issued. CONTINUED AIRWORTHINESS (DI OGNI SINGOLO AEROPLANO) = All the processes ensuring that, at any time in its operating life, an indivual aircraft complies with the airworthiness requirements in force and is in a condition for safe operation. 26 AIRWORTHINESS DGAA FFAA CONFIGURATION CONTROL COMPLIANCE OPERATIONS & MAINTENANCE MILITARY TYPE CERTIFICATION IN SERVICE CONFIGUARTION CHANGES OCCURENCE REPORT AND INVESTIGATION CONTINUING AIRWORTHINESS 27 AIRWORTHINESS DGAA FFAA CONFIGURATION CONTROL COMPLIANCE OPERATIONS & MAINTENANCE MILITARY TYPE CERTIFICATION IN SERVICE CONFIGUARTION CHANGES OCCURENCE REPORT AND INVESTIGATION CONTINUING AIRWORTHINESS 28 QUALIFICATION IN ORDER TO CORRECTLY DEFINE AND VERIFY THE REQUIREMENTS CONCERNING AIRCRAFT AND MAJOR SYSTEMS, D.G.A.A. RECOMMENDS THE DRS TO CONSIDER THE JSSG-2001B Air vehicle GUIDELINES REPORTED IN JSSG-2009-G APPENDIX G, AIR VEHICLE FIRE AND EXPLOSION HAZARD PROTECTION SUBSYSTEM REQUIREMENTS AND GUIDANCE THE “JOINT SERVICE SPECIFICATION GUIDE” (JSSG) JSSG-2009-H APPENDIX H, AIR VEHICLE ELECTRICAL POWER SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2006 Aicraft structures JSSG-2007A Engines, aircraft, turbines JSSG-2009 Air vehicle subsystems JSSG-2009-A APPENDIX A, AIR VEHICLE LANDING SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-B APPENDIX B, AIR VEHICLE HYDRAULIC POWER SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-C APPENDIX C, AIR VEHICLE AUXILIARY POWER SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-D APPENDIX D, AIR VEHICLE ENVIRONMENTAL CONTROL SUBSYSTEMS REQUIREMENTS AND GUIDANCE JSSG-2009-E APPENDIX E, AIR VEHICLE FUEL SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-F APPENDIX F, AIR VEHICLE AERIAL REFUELING SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-I APPENDIX I, AIR VEHICLE MECHANICAL SUBSYSTEMS REQUIREMENTS AND GUIDANCE JSSG-2009-J APPENDIX J, AIR VEHICLE CARGO, AERIAL DELIVERY, AND SPECIAL OPERATIONS SUBSYSTEM REQUIREMENTS AND GUIDANCE JSSG-2009-K APPENDIX K, AIR VEHICLE VERTICAL TAKEOFF AND LANDING (VTOL) - SHORT TAKEOFF AND LANDING (STOL) POWER DRIVE SUBSYSTEMS REQUIREMENTS AND GUIDANCE ….. …. Go back 29 QUALIFICATION “JOINT SERVICE SPECIFICATION GUIDE” (JSSG) DOD REALIZED IN ORDER TO MAKE UP A SUMMA OF THE KNOWLEDGE AND EXPERIENCE ACCUMULATED IN THE FIELD OF MILITARY AVIATION CAN ACT AS A GUIDE FOR THE: CHOICE OF THE REQUIREMENTS, WRITING OF THE REQUIREMENTS, VERIFICATION OF THE REQUIREMENTS, ACQUISITION OF THE “LESSONS LEARNED”. Go back 30