Upload
haminh
View
225
Download
0
Embed Size (px)
Citation preview
Safety, Security, Reliability, Interoperability
– Keys for successful adoption of scalable
integrated robots solution
APAC Innovation Summit 2016 Series – RoboticsJune 2016, Hong Kong
Dr Andreas HAUSEREdson Hiroshi AOKI, PhDArtem VOROBIEV, PhD
TÜV SÜD Hong Kong Slide 116-05-31
Outline
1Robots on their way, the hype, customer concerns
2 Safety and Security – inherent link
3 Product/Component versus System
4Solution path, Comprehensive Approach
5 Key Take Aways
TÜV SÜD Hong Kong Slide 216-05-31
Reality – Robots are coming
• Digitisation enabled by IoT technologies, Robotics and Data Analytics are impacting all sectors globally and disrupts existing business models
• Connectivity Robotics, Big Data are changing our whole society, both in business and private domains
• Productivity and efficiency are the key drivers for new services
• Companies are transforming their products, services, operating models and business strategies to address a connected, real-time and data-driven marketplace
• New challenges arise in terms of Safety, Security, Reliability, Performance and Interoperability
TÜV SÜD Hong Kong Slide 316-05-31
Ministry of Economics and Trade (METI). (2010). 2035nen ni muketa robotto sangyou no shourai shijou yosoku
(Market forecast of robot industry in 2035). Retrieved: http://www.meti.go.jp/press/20100423003/20100423003-2.pdf
But let‘s not get fooled by the hype
TÜV SÜD Hong Kong Slide 416-05-31
Be realistic about the market
demand and readiness of
consumers, owners and operators
Challenges
• Safety (≡ Availability)
• Security incl data privacy
• Reliability
• Performance
• Interoperability
TÜV SÜD Hong Kong Slide 516-05-31
https://infocus.emc.com/dave_matson/lets-get-predictive-about-service-excellence/
Safety & Security – New Challenges for Robots
Embedded systems are key components in smart, automated installations
TÜV SÜD Hong Kong Slide 616-05-31
Communication
Ability of different systems
to work together
Safety
Reliability for the environment
(user, environment,
functionality)
Cyber Security
System security (Security
for Safety)
Embedded systems are widely used for
measuring, regulating and controlling
of all types of devices and systems.
As information exchange between these
systems (networks) increases, new
issues of security and availability
arise not only for the individual device
but for the whole system.
Need for conformance testing
of the single component as well as in
testing communication between
devices (interoperability) up to the safety
concept of the overall system (Security
for Safety).
Cyber Security – Compromising Threat
Hacking threatens basically all connected devices and systems
TÜV SÜD Hong Kong Slide 716-05-31
Hacking and
manipulating traffic
sensors
https://www.helpnetsecurity.com/2016/04/20/h
acking-manipulating-traffic-sensors/
Security Experts Hack
Teleoperated Surgical
Robot
https://www.technologyreview.com/s/537001/security-
experts-hack-teleoperated-surgical-robot/
Confused drone
http://www.bbc.com/future/story/20140206-can-
drones-be-hacked
Safety and Security are inherently connected
In connected systems suddenly the weakest safety point becomes the weakest security point
TÜV SÜD Hong Kong Slide 816-05-31
Quanitfying the Safety & Security Risk
• Embedded systems are increasingly
used for minimizing risks to people and
the environment
• Safety functions must be effectively
protected against outside attacks
• Current market situation increasingly
calls for the combination of both aspects
Safety & Security
Increasing awareness to consider safety and security at the same time
T1
100 Mio.
10 Mio.
Safety Level (SIL)
Security
Level (SL)
1
2
3
4
4 3 2 1
SIL will be defined through the safety analysis for the
Safety Implemented System (SIS)
SIL=3 requires SL>=3TÜV SÜD Hong Kong Slide 916-05-31
Functional Safety – Key Safety Approach
TÜV SÜD Hong Kong Slide 1016-05-31
Place and maintain a process in a safe state
Product / Component Level
Safet and Security for complex components is already a challenge!
TÜV SÜD Hong Kong Slide 1216-05-31
Safety rotary
encoderSafety PLC Robot
Type testing acc.IEC
61508 and ISO 13849
Type testing
acc. IEC 61508
Type testing
acc. ISO 10218
System Level – A Whole New Level
Example of an Autonomous Vehicle
• High complexity through
connectivity
• Functional Safety concept
still valid, but challenging
with „analogue“ approach
• Security and Safety level
determined by weakest
point in system
• Existing tools and
methods not sufficient
TÜV SÜD Hong Kong Slide 1316-05-31
Da
sh
bo
ard
Ga
tew
ay
NavigationEntertainment /
Telematics
Engine
Control
Gearbox
Control
Brake
Control
Door Lock
Control
HVAC
Control
Light
Control
PSI5
Powertrain, …
Head Unit
Ethernet
Diagnostic Systems
Ethernet
On-board
Off-board
Off-board
On-board3G
4G
5G
C2C & C2E
OBD2
Kein physikalischer Zugang notwendig
Angriff skaliertPhysikalischer Zugang notwendig
Angriff skaliert nicht
Standards Landscape for Robots and Integration
TÜV SÜD Hong Kong Slide 1416-05-31
• Safety: Published standards (testing)– ISO 10218-1:2011 - Safety requirements for industrial robots -- Part 1: Robots– ISO 10218-2:2011 - Safety requirements for industrial robots -- Part 2: Robot systems and integration– ISO 13482:2014 - Safety requirements for personal care robots– ISO/TS 15066:2016 - Collaborative robots
• Safety: Standards under development (testing and advisory)– ISO/NP TR 20218-1 - Safety requirements for industrial robots -- Part 1: Industrial robot system end of arm tooling (end-effector)– IEC/NP 80601-2-77 - Part 2-77: Particular requirements for the basic safety and essential performance of medical robots for surgery– IEC/NP 80601-2-78 - Part 2-78: Particular requirements for the basic safety and essential performance of medical robots for
rehabilitation, compensation or alleviation of disease, injury or disability
• Security– OWASP testing guide– NIST 800-115 – Information Systems Security Assessment Framework (ISSAF) – Open Source Security Testing Methodology Manual (“OSSTMM”)
• EMC– IEC 61000-6-2 & IEC 61000-6-4, etc.
• RF– ETSI EN 300 328– Bluetooth, 2.4G Wi-Fi, 5G Wi-Fi, etc.
Testing / Qualification Practice Needs Upgrading
Current testing methodologies and practice not sufficient to ensure Safety & Security
TÜV SÜD Hong Kong Slide 1516-05-31
Da
sh
bo
ard
Ga
tew
ay
NavigationEntertainment /
Telematics
Engine
Control
Gearbox
Control
Brake
Control
Door Lock
Control
HVAC
Control
Light
Control
PSI5
Powertrain, …
Head Unit
Ethernet
Diagnostic Systems
Ethernet
O
f
f
-
b
o
a
r
d
O
n
-
b
o
a
r
d
3G4G
5G
C2C & C2E
OBD2
Testing / Qualification Practice Needs Upgrading
• Integration of Safety and Security
through development cycle
• Apply standards and best practices
• Deploy software based testing tools
• Proper testing by manufacturer and
third party
• Context / integration: interaction to be
tested
TÜV SÜD Hong Kong Slide 1616-05-31
Da
sh
bo
ard
Ga
tew
ay
NavigationEntertainment /
Telematics
Engine
Control
Gearbox
Control
Brake
Control
Door Lock
Control
HVAC
Control
Light
Control
PSI5
Powertrain, …
Head Unit
Ethernet
Diagnostic Systems
Ethernet
O
f
f
-
b
o
a
r
d
O
n
-
b
o
a
r
d
3G4G
5G
C2C & C2E
OBD2
Functional Safety and Security during Product Development Process
TÜV SÜD Hong Kong Slide 1716-05-31
16-05-31
Product
Product Development
Definition
Analysis
Concept & Measures
Design
Implementation
Verification & Validation
Release
Functional Safety
Safety assessment
Hazard analysis &
Risk assessment
Safety goals
Measures
Security
Security assessment
Security risks analysis
Security objectives
Measures
Functional Safety & Security - basis of a successful Business Case
selling success
security
quality
safety
…
The evaluation of the
conformity with
relevant standards
mitigates your
business risk!
TÜV SÜD Hong Kong Slide 1816-05-31
Comprehensive Safety & Security Cycle
TÜV SÜD Hong Kong Slide 1916-05-31
Robot Safety
Functional Safety
(Components and System)
Industrial IT Security
Enterprise IT Security
Generic Functional
Safety
Tool Evaluation & Certification
Key Take Aways
• Safety and Security are inherently linked through connectivity
• Standards and best practice do exist, but need to be deployed, upgraded and extended for system approach
• Testing tools around safety and security need to be developed to ensure Safety & Security and hence the acceptance of robotics and IoT
• Sensor systems need „special“ attention due to its ubiquitous deployment
• Risk reduction by early adoption of safety &security checks along product development cycle
• Comprehensive testing by manufacturer and third party required
TÜV SÜD Hong Kong Slide 2016-05-31
Honeynet
Autonomous Driving
Software based testing for Smart Hospital and Transport
Drone Qualification
Product / Component Level
TÜV SÜD Hong Kong Slide 21
16
Thank You for Your Attention
Dr. Andreas Hauser
Director, CoE Digital Service
TÜV SÜD, Singapore
Contact us:
Dr. Ing. Robert PutoVice President – Greater China
PS Commercial Products