Agile Development in the Space Business SWISSED 16 The Swiss Society of Systems Engineering Day Zürich, Mathias Burkhalter RUAG Space - RUAG Schweiz AG
AGENDA RUAG Space Space Development Environment Agile Development Logic Background of Future Actuator development Future Actuator Project Key Findings and Summary 2 RUAG Space
RUAG Space in Key Figures CHF 310 million sales in 2015 1 204 employees (end 2015) Eleven sites worldwide (Switzerland, Sweden, Austria, Finland, Germany, USA) Largest independent European supplier for space products 50 years of heritage in space 3 RUAG Space
RUAG Space Product Lines Launcher Structures & Separation Systems Satellite Structures, Mechanisms & Mechanical Equipment Digital Electronics for Satellites and Launchers Satellite Communication Equipment Launcher Fairings & Structures Payload Adapters & Separation Systems Sounding Rocket Guidance Satellite Structures Satellite Mechanisms Slip Rings Mechanical Ground Support Equipment Thermal Systems Satellite & Launcher Computers Navigation Receivers & Signal Processing Receivers & Converters Antennas 4 RUAG Space
Product Unit Mechanisms Market SADM 25% Non Space 10% Building Blocks 5% Pointing 20% Payload 35% ESA 50% 5 RUAG Space
Mechanisms Product Lines & Clusters Novelty Innovation Complexity Cryogenic Mechanisms Scanning & Fine Pointing Robotics TPAs SADAs Payload Mechanisms Classical development Deployment Systems Separation Systems Covers Actuators & ADPAs Dampers Industrial Development Cardan Repeatability 6 RUAG Space
Space Development Environment Classical development Industrial Development Science Missions Very demanding performance Extreme environment Demanding verification constraints (tests & documentation) Telecommunication Missions Price / performance Documentation tailored to needs Schedule constraints 7 RUAG Space
Space Development Environment Same product and function but different mission Classical development Science Missions Many requirements >30 documents Large customer teams Formal processes Industrial (Agile) Development Telecommunication Missions Tailored requirements Quick decision loops Hardware focused 8 RUAG Space
Agile Development Logic 9 RUAG Space
Background of FA development PT6 engine development more than 50 Years ago SARA21 10 RUAG Space
Development Logic Phase 1 (without customer) Phase 2 (without customer) Phase 3 (with customer) 1. Requirements 2. Solutions 3. Concept Refinement 4. Test 5. Improvement Test Results, Market, Customer Customer, Market, Experts Experts, Concurrent Engineering (CE) Technology, Experts, CE Risks, Needs 11 RUAG Space
1. Requirements Or Did did we we over-specify what we the need? item? 12 RUAG Space
2. Solutions But: Simplification can make things more complicated and can add risks! 13 RUAG Space
3. Concept Refinement Solution? Suppliers Requirements definition Refine Concept 14 RUAG Space
4. Test Test the limit Define key test objectives Is it simple enough? Keep flexibility 15 RUAG Space
Future Actuator Design Goals (Requirements) Lower price than Higher detent torque than Small step size than Higher stiffness than Same dimension and mass than SARA21 16 RUAG Space
Future Actuator Concept Evolution 1 st Concept Concept evolution with supplier support Concept Refinement 17 RUAG Space
Strain Wave Gear Gear Ratio > 5000 Mass < 500 gr Peak Torque > 200 Nm 18 RUAG Space
Future Actuator Testing Load Torque Sensor Load Future Actuator Gear Future Actuator 19 RUAG Space
Future Actuator Testing Testing at Gear Level Testing at Actuator Level 20 RUAG Space
Future Actuator Key Features 1. Pointing accuracy ~ 0.001 2. Torque >> 100 Nm possible 3. Detent torque > 60 Nm 4. Backdriveable Yes 5. Low mass Yes (2 kg) 6. Low price Yes 7. Compact volume Yes 8. High load capability Yes 9. High stiffness Yes 21 RUAG Space
Summary New development approach 1:1 implemented with the Future Actuator Breadboard model Approach proven to be fast and flexible Low cost due to speed and flexibility Key Elements of the RUAG lean development approach: Requirements: Define challenging design goals and weight them Solution: Early involve suppliers Concept: Stay as long in the concept phase until it is mature Testing: Test the limit (performance) of the unit Be prepared to deviate from technical requirement for a better overall solution 22 RUAG Space
Agile Development Pros & Cons PROS CONS Lower cost: Only needed documentation is prepared Quick internal decision loops Regular small review loops No iterations with customer when requirements are not met Performance Limit known: Challenging design goals allow pushing the limit but do end in a disaster if they are not reached Design goals allow deviation for overall optimisation Fixation of requirements after testing the performance limit In some cases longer schedule: Due to the missing external customer such developments do not always get the desired priority when resources get short 23 RUAG Space
Thank you for your attention! 24 RUAG Space