Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL)...
Transcript of Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL)...
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Department of Mechanical EngineeringUniversity of Minnesota
Date : 10/16/15 (Friday)FPIRC 2015
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Hardware-In-the-Loop (HIL) Testbedfor Evaluating Connected Vehicle Applications
Project Members :Mohd Azrin Mohd Zulkefli
Pratik MukherjeeYunli Shao
Prof. Zongxuan Sun
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Background
Travel direction
Intelligent Vehicles
Detectors
Traffic Center
Road Site Unit
• IVC & VII are introduced to improve safety and mobility.
• Information exchange between vehicles are supported by :
• DSRC communication standards [1] :
• IEEE 802.11p – Wireless Access in Vehicular Environments (WAVE).• IEEE 1609 – Security, Network Service & Multi Channel Operation.• SAE J2735 – Message Set Dictionary for Basic Safety Message (BSM).
• FCC Allocate 5.85–5.925 GHz band for DSRC communication.
Glossary IVC : Inter Vehicle CommunicationVII : Vehicle-Infrastructure-IntegrationDSRC : Dedicated Short Range Communication
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Motivation
• Evaluation of connected-vehicle application in real traffic is difficult and time consuming with safety and legal concerns.
• Inaccurate fuel and emission maps requires the use of real engine.• Microscopic traffic simulation can mimic actual traffic if calibrated and driven by
real traffic inputs.
Previous Methods and Challenges
• Inaccurate fuel and emission maps in simulations [2].
• Difficulties and space requirements to instrument on-road vehicles with big measurement devices [3-4].
• Safety and legal concerns to test connected vehicle in real traffic [5].
Proposed Research Previous Methods Deficiencies HIL Testbed
Development of HiLS for EMS Evaluation
Inaccurate fuel-use and emission maps. HiLS measures real engine fuel-use and emissions.
Difficulties & space requirements to instrument on-road vehicles.
Testing done in lab & engine is easily instrumented and replaced.
Safety and legal concerns.Realistic simulated traffic does not pose safety or
legal concerns.
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Powertrain Research Platform
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Working PrinciplesHardware Components
Main Dynamics
Valve opening 𝑤𝐻𝑆 is controlled to track 𝜔𝑒
and engine throttle angle is used to control 𝑇𝑒
𝜔𝑒 =𝑇𝑒𝐽𝑒−𝑇𝑝𝑢𝑚𝑝
𝐽𝑒−𝑇𝑓𝑟𝑖𝑐𝑡𝑖𝑜𝑛
𝐽𝑒
=𝑇𝑒𝐽𝑒−
𝐷𝑀2𝜋𝐽𝑒
𝑃𝑜𝑢𝑡 +𝐷𝑀2𝜋𝐽𝑒
𝑃𝑖𝑛 −𝑇𝑓𝑟𝑖𝑐𝑡𝑖𝑜𝑛
𝐽𝑒
𝑃𝑜𝑢𝑡 =𝛽𝑒𝑉𝑡2
𝑞𝑖𝑛 −𝛽𝑒𝑉𝑡2
𝑞𝑜𝑢𝑡 −𝛽𝑒𝑉𝑡2
𝑞𝑙𝑒𝑎𝑘
=𝛽𝑒𝐷𝑀2𝜋𝑉𝑡2
𝜔𝑒 −𝛽𝑒𝐶𝑑𝐴𝐻𝑆
𝑉𝑡2
2
𝜌𝑃𝑜𝑢𝑡 𝑤𝐻𝑆
−𝛽𝑒𝑉𝑡2
𝑞𝑙𝑒𝑎𝑘Wang, Y., Sun, Z., and Stelson, K.A., “Modeling, Control, and Experimental Validation of a TransientHydrostatic Dynamometer,” Control Systems Technology, IEEE Transactions on , v19, n6, pp. 1578-1586,Nov 2011.
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Control Architecture
Three-level control architecture :
1) High Level : EMS to optimize reference (𝑇𝑒 , 𝜔𝑒).
2) Middle Level : Virtual Powertrain Model – calculate desired engine load.
3) Low Level : Dynamometer control - track desired engine load.
Wang, Y., Sun, Z., and Stelson, K.A., “Nonlinear Tracking Control of a TransientHydrostatic Dynamometer for Hybrid Powertrain Research,” Proceedings of the ASME2010 Dynamic Systems and Control Conference, pp. 61-68, September 12-15 2010.
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Overview of Hardware in the Loop System (HiLS)
HiLS Component Purpose Ownership
Powertrain Research Platform Controls load to real engine for fuel & emission measurements. U of MN
Microscopic Traffic Sim (VISSIM) Simulate traffic & provide speed trajectory to Powertrain Res. Platform. BOTH
Connected Vehicle Controller Controls vehicles in VISSIM for connected vehicle applications. U of MN
SMART-SIGNAL Provide real traffic input to VISSIM simulation. U of MI
Signal Controller Cabinet Controls a virtual intersection in VISSIM. U of MI
Signal Controller
Cabinet
Controller Middleware
SMART-SIGNAL
Field Data Processer
Connected Veh Controller
Connected VehMiddleware
Powertrain Research Platform
Powertrain Middleware
Zoom-In intersection
Microscopic Traffic Simulator (VISSIM)
Middlewares to connect the different HiLS components
Physical Components
Software/Hardware Components
Glossary
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• Desired-veh-speed is extracted from VISSIM, while actual-veh-speed is calculated from the powertrain dynamics using actual engine speed and torque.
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• Solid arrows indicate local communication.• Dashed arrows indicate remote communication via C# Socket Programming.
VISSIM COM
VISSIM Traffic
Simulator
Dyno(Hardware)
Desired/Optimized 𝑇𝑒, 𝜔𝑒
Control/Optimization
Traffic
Control of Powertrain model &
Optimization
Actual 𝑇𝑒 , 𝜔𝑒
MATLAB-Simulink
Powertrain Research Platform Remote computer running VISSIM
Pow
ertr
ain
CO
M
VISSIM Input
Powertrain Dynamics
(Simulation) Actual Veh Speed
Desired Veh
Speed
Desired Veh
Speed
Des Veh
Speed
VISSIM Input
HIL Testbed Powertrain Middleware
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• Currently, one-way communication is implemented for testing before implementing two-way communication.
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• Solid arrows indicate local communication.• Dashed arrows indicate remote communication via C# Socket Programming.
VISSIM COM
VISSIM Traffic
Simulator
Dyno(Hardware)
Desired/Optimized 𝑇𝑒, 𝜔𝑒
Control/Optimization
Traffic
Control of Powertrain model &
Optimization
Actual 𝑇𝑒 , 𝜔𝑒
MATLAB-Simulink
Powertrain Research Platform Remote computer running VISSIM
Pow
ertr
ain
CO
MPowertrain Dynamics
(Simulation)
Desired Veh
Speed
Desired Veh
Speed
Desired Veh
Speed
HIL Testbed Powertrain Middleware
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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• 1700 meters long with 7 traffic-lights (fixed-timing) at every 200m between 300m and 1500m.
• Vehicle speed data was transferred from a computer running VISSIM to powertrain research testbed remotely at every 0.2 seconds.
• Vehicle with no-stop, 1-stop, 2-stops and 3-stops were identified before tests were conducted for each vehicle.
• HIL Video
300m
1500m
Test Setup : Traffic Network
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Test 1 : No Stop
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Veh
icle
Dyn
amic
sFu
el U
se &
Em
issi
on
s
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Test 2 : 1-Stop
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Veh
icle
Dyn
amic
sFu
el U
se &
Em
issi
on
s
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Test 3 : 2-Stop
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Veh
icle
Dyn
amic
sFu
el U
se &
Em
issi
on
s
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Test 4 : 3-Stop
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Veh
icle
Dyn
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sFu
el U
se &
Em
issi
on
s
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0.0
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90.2
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Test Results : Fuel Consumption & Emissions
Fuel Consumption Emissions5
5.2
6
57
.97
76
.59
10
2.3
0
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Gra
ms
of
die
sel f
uel
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Test Setup : Traffic Network
• 3.5km stretch on Medical Drive between BabcockRoad & Fredericksburg Road in San Antonio, TX.
• Traffic Simulation Complexities :• Multiple vehicle types : cars, busses & trucks.• Multiple lanes with lane-changing.• Varying speed limits for roads & lanes.• 7 signalized & 6 non-signalized intersections.• Reduced vehicle speeds, right-of-ways &
pedestrian crossings at intersections.• Stop signs at non-signalized intersections.• Public transportation stops.
• Two vehicles with 2-stops & 3-stops traveling thesame route are selected for test cases.
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Test 1 : 2-Stop
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Veh
icle
Dyn
amic
sFu
el U
se &
Em
issi
on
s
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Test 2 : 3-Stop
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Veh
icle
Dyn
amic
sFu
el U
se &
Em
issi
on
s
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Test Results : Fuel Consumption & Emissions
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0.1
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0.1
20.5
6
0.6
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2.6
9 3.2
4
2.5
7
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, NO
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O, N
O a
nd
NO
X
HCHO NO2 CO
NO NOx CO2
Fuel Consumption Emissions
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2.2
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0
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2-stops 3-stops
Gra
ms
of
die
sel f
uel
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Conclusions
• Vehicle data from remote traffic simulation extracted and transferred in real-time tothe powertrain research platform over the internet through COM interfaces andsocket programming.
• Different vehicle speed profiles accurately tracked by powertrain research platformto represent the target vehicle in VISSIM simulation.
• Simple powertrain optimization employed in powertrain research platform tooptimize engine operating points in real-time, which can be extended to complexoptimization methods utilizing traffic data in the future.
• Real fuel and emissions measurements are recorded, which can be used to evaluateoptimization methods for connected vehicle applications in the future.
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Presentation Outline
• Introduction
• Powertrain Research Platform
• Hardware-In-the-Loop (HIL) Testbed
Introduction
Test Results with Simple Traffic Network
Test Results with Complex Traffic Network
• Conclusions
• Future Directions
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Future Directions
• Upgrade one-directional communication to two-directional to reflect actual vehiclespeed from powertrain research platform in VISSIM simulation.
• Build connected vehicle controller and middleware to process traffic data fromVISSIM simulation.
• Calibrate VISSIM traffic simulation with real-traffic from data collected oninstrumented vehicle and highway (cooperation with MnDOT).
• Support the benefits evaluations of connected vehicle technologies from accuratefuel consumption and emissions measurements on the testbed.
• Support benefit assessments of several USDOT’s connected vehicle applications :Eco-Approach, CACC, Eco-Driving and Speed Harmonization.
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1. Kenney, J.B., “Dedicated Short-Range Communications (DSRC) Standards in the United States,” Proceedings of the IEEE, v99, n7, pp. 1162-1182, July 2011.
2. Filipi, Z., Fathy, H., Hagena, J., Knafl, A. et al., “Engine-in-the-Loop Testing for Evaluating Hybrid Propulsion Concepts and Transient Emissions - HMMWV Case Study,” SAE Technical Paper 2006-01-0443, 2006.
3. Duoba, M., Ng, H., and Larsen, R., “Characterization and Comparison of Two Hybrid Electric Vehicles (HEVs) - Honda Insight and Toyota Prius,” SAE Technical Paper 2001-01-1335, 2001.
4. Hu, H., Zou, Z., and Yang, H., “On-board Measurements of City Buses with Hybrid Electric Powertrain, Conventional Diesel and LPG Engines,” SAE Technical Paper 2009-01-2719, 2009.
5. Hall, R.W. and Tsao, H.S.J., “Automated Highway System Deployment: A Preliminary Assessment of Uncertainties,” Automated Highway Systems, pp. 325-334, 1997.
References
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Backup Slide 1 : CACC Controller
𝑥𝑑 = 𝑘𝑝(𝑥𝑝−𝑥𝑑_𝑎 − 𝑑0) + 𝑘𝑑( 𝑥𝑝 − 𝑥𝑑_𝑎) + 𝑥𝑝
By choosing appropriate 𝑘𝑝 and 𝑘𝑑 gains, the error dynamics will stabilize to zero.
Therefore, the distance between preceding and following vehicle can be kept constant.
𝑥𝑝 = Preceding-vehicle speed (from VISSIM)
𝑥𝑝 = Preceding-vehicle acceleration (from VISSIM)
𝑥𝑝 = Preceding-vehicle distance travelled (from VISSIM)
𝑥𝑑_𝑎 = Actual follower-vehicle speed (from HIL)𝑥𝑑_𝑎 = Actual follower-vehicle distance travelled (from HIL) 𝑥𝑑 = Desired follower-vehicle speed (CACC controller output)𝑑0 = Desired spacing (constant)
𝑥𝑑 = 𝑥𝑑 𝑑𝑡
![Page 32: Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL) Testbed for Evaluating Connected Vehicle Applications Project Members : Mohd Azrin](https://reader030.fdocuments.us/reader030/viewer/2022040419/5e013a9c2bc00b56ba76abfc/html5/thumbnails/32.jpg)
• Vehicle speed extracted from VISSIM is assumed to be lead vehicle speed• CACC controller use this information to calculate follower vehicle speed using fixed-
spacing car-following policy.• Dyno acts as the follower car.
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Backup Slide 2 : HIL Testbed with Embedded CACC Controller
VISSIM COM
VISSIM Traffic
Simulator
Dyno(Hardware)
Desired/Optimized 𝑇𝑒, 𝜔𝑒
Control/Optimization
Control of Powertrain model &
Optimization
Actual 𝑇𝑒 , 𝜔𝑒
MATLAB-Simulink
Powertrain Research Platform Remote computer running VISSIM
Pow
ertr
ain
CO
M
Powertrain Dynamics
(Simulation)
LeadVeh
Speed
LeadVeh
Speed
FollowerVeh
Speed
CACC Controller
LeadVeh
Speed
![Page 33: Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL) Testbed for Evaluating Connected Vehicle Applications Project Members : Mohd Azrin](https://reader030.fdocuments.us/reader030/viewer/2022040419/5e013a9c2bc00b56ba76abfc/html5/thumbnails/33.jpg)
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Test Results• Follower vehicle enters traffic network 20s after lead vehicle enters• Follower vehicle catches-up with lead and maintain 3-meters (10 feet) spacing
Zoom In between 80s - 200s
![Page 34: Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL) Testbed for Evaluating Connected Vehicle Applications Project Members : Mohd Azrin](https://reader030.fdocuments.us/reader030/viewer/2022040419/5e013a9c2bc00b56ba76abfc/html5/thumbnails/34.jpg)
Results with CACC Controller (Different Rule-Based EMS)
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Veh
icle
Dyn
amic
sEm
issi
on
s
Fuel or Emission Gas
Total
Fuel
Consumed (g)
58.47
NOx (g)2.7719
NO (g)1.5775
NO2 (g)0.3505
HCHO (g)0.0669
CO (g)1.7031
CO2 (g)182.6519
![Page 35: Hardware-In-the-Loop (HIL) Testbed for Evaluating ... · FPIRC 2015 1 Hardware-In-the-Loop (HIL) Testbed for Evaluating Connected Vehicle Applications Project Members : Mohd Azrin](https://reader030.fdocuments.us/reader030/viewer/2022040419/5e013a9c2bc00b56ba76abfc/html5/thumbnails/35.jpg)
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Backup 3 : Rule Based Method
𝑃𝑤ℎ𝑒𝑒𝑙 = 𝑇𝑣𝜔𝑣 𝑃𝑆𝑂𝐶 = 𝑆𝑂𝐶𝑡𝑎𝑟𝑔𝑒𝑡 − 𝑆𝑂𝐶 𝐾𝑓𝑖𝑡
𝑃𝑟𝑒𝑞 = 𝑃𝑤ℎ𝑒𝑒𝑙 + 𝑃𝑆𝑂𝐶
𝑇𝑒 =𝑃𝑒𝜔𝑒
=𝑃𝑟𝑒𝑞
𝜔𝑒
• Iterate 𝜔𝑒 and select minimum 𝑚𝑓𝑢𝑒𝑙 𝑇𝑒 , 𝜔𝑒 .
• A Rule-Based map can be iterated offline at different values of 𝑃𝑟𝑒𝑞 to create a mapped correlation
between minimum 𝑚𝑓𝑢𝑒𝑙 𝑇𝑒 , 𝜔𝑒 and 𝑃𝑟𝑒𝑞 (see Figure above)
Rule-Based Map for John Deere Engine