Facilitating Formal Verification of Cooperative Driving Applications: Techniques and Case Study

Lin, Shou-pon

January 2015

The next generation of intelligent vehicles will evolve from being able to drive autonomously to ones that communicate with other vehicles and execute joint behaviors. Before allowing these vehicles on public roads, we must guarantee that they will not cause accidents. We will apply formal methods to ensure the degree of safety that cannot be assured with simulation or closed-track testing. However, there are challenges that need to be addressed when applying formal verification techniques to cooperative driving systems. This thesis focuses on the techniques that address the following challenges: 1. Automotive applications interact with the physical world in different ways; 2. Cooperative driving systems are time-critical; 3. The problem of state explosion when we apply formal verification to systems with more participants. First, we describe the multiple stack architecture. It combines several stacks, each of which addresses a particular way of interaction with the physical world. The layered structure in each stack makes it possible for engineers to implement cooperative driving applications without being bogged down by the details of low-level devices. Having functions arranged in a layered fashion helps us divide the verification of the whole system into smaller subproblems of independent module verification. Secondly, we present a framework for modeling the protocol systems that uses GPS clocks for synchronization. We introduce the timing stack, which separates a process into two parts: the part modeled as an finite-state machine that controls state transitions and messages exchanges, and the part that determines the exact moment that a timed event should occur. The availability of accurate clocks at different locations allows processes to execute actions simultaneously, reducing interleaving that often arises in systems that use multiple timers to control timed events. With accurate clocks, we create a lock protocol that resolves conflicting merge requests for driver-assisted merging. Thirdly, we introduce stratified probabilistic verification that mitigates state explosion. It greatly improves the probability bound obtained in the original probabilistic verification algorithm. Unlike most techniques that aim at reducing state space, it is a directed state traversal, prioritizing the states that are more likely to be encountered during system execution. When state traversal stops upon depleting the memory, the unexplored states are the ones that are less likely to be reached. We construct a linear program whose solution is the upper bound for the probability of reaching those unexplored states. The stratified algorithm is particularly useful when considering a protocol system that depends on several imperfect components that may fail with small but hard-to-quantify probabilities. In that case, we adopt a compositional approach to verify a collection of components, assuming that the components have inexact probability guarantees. Finally, we present our design of driver-assisted merging. Its design is reasonably simplified by using the multiple stack architecture and GPS clocks. We use a stratified algorithm to show that merging system fails less than once every 5 × 10¹³ merge attempts.

Automobile driving

Automobiles--Automatic control

Motor vehicles--Automatic control

Automatic control--Computer programs

Artificial intelligence

Electrical engineering

Computer science

Exploration of Weather Impacts on Freeway Traffic Operations and Safety Using High-Resolution Weather Data

Dai, Chengyu

01 January 2011

Adverse weather is considered as one of the important factors contributing to injuries and severe crashes. During rainy conditions, it can reduce travel visibility, increase stopping distance, and create the opportunity hydroplaning. This study quantified the relative crash risk on Oregon 217 southbound direction under rainy conditions by using a match-paired approach, applied one-year traffic data, crash data and NEXRAD Level II radar weather data. There are 26 crashes occurred in match-paired weather conditions for Oregon 217 in year 2007. The results of this study indicate that a higher crash risk and a higher property-damage-only crash risk occurred during rainy days. The crash risk level varies by the location of the highway, at milepost 2.55 station SW Allen Blvd has the highest driving risks under rainy conditions.

Crashes

Adverse weather

Radar weather data

Driveability evaluation for engine management calibration

Momberg, J. J.

03 1900

Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2007. / Vehicles are expected to deliver adequate power for the engine size and vehicle class. They must also deliver good response to the driver’s desired action as well as deliver the lowest possible fuel consumption in all possible conditions and comply with emissions regulations. The combination of these factors is termed good driveability. Evaluating driveability is time and cost intensive and is most commonly evaluated from a subjective driver prospective. Advanced control systems allow for more accurate control of the vehicles response to the drivers demands. The objective of this document was to develop a quantitative driveability evaluation model for engine management calibration. The important aspects of engine management control for driveability, as well as how they are manipulated to deliver acceptable driveability were identified. Test procedures were developed to measure and quantify all these important factors. The test procedures can be evaluated for their different sections or for a complete driveability evaluation method. An optimised driveability evaluation method was developed to reduce the driveability evaluation time. Verification of the driveability evaluation model did provide different results for a different engine management calibration.

Dissertations -- Mechanical engineering

Theses -- Mechanical engineering

Automobile driving

Driveability -- Evaluation

Mechanical and Mechatronic Engineering

Driving in Hong Kong: a gender perspective

Yiu, Shuk-hing., 姚淑馨.

January 2007

published_or_final_version / Sociology / Master / Master of Philosophy

Sex role.

Highway Abuse and Violence: Motorists' Experiences as Victims

McAlhany, Deborah A.

05 1900

Only circumscribed aspects of highway aggression have been investigated. The upsurge of abuse and violence transpiring between motorists necessitated a more definitive depiction of the actual events, participants, and relevant contextual features. A questionnaire administered to 120 motorists, aged 18 to 68, solicited a recountal of incidents occurring within 12 months and a description of their most recent encounter. Based on severity of experience, subjects were relegated to distal threat, direct threat, and nonvictim groups. Although most events involved unreported distal threats lasting less than three minutes, men and non-college graduates were more often directly threatened, while non-victims were predominantly women and college graduates. Perpetrators were primarily unknown Caucasian males who generally aggressed in populated areas during afternoon hours.

highway aggresion

Aggressiveness.

victims of highway violence

The Adolescent Stress Response to a Naturalistic Driving Stressor

Wingo, Mary

08 1900

The proposed study examined the role of anxiety and risk-taking in driving performance in adolescents. In addition to examining the sample as a whole, gender differences were assessed given earlier reports from our laboratory and others indicating that males and females differ with respect to risky behaviors to driving performance and anxiety. Adolescents' subjective and physiological responses to a driving simulator task were assessed. Anxiety was measured via self report and salivary cortisol. Participants provided a baseline saliva sample and 3 post-task samples for cortisol analysis. Subjective anxiety scores were obtained at both baseline and following the driving stressor. Information concerning impulsivity, as well as other psychological constructs was also collected at baseline. Unlike the pilot study, there were no relationships (with or without respect to gender) between salivary cortisol and both self-reported anxiety (state and trait) or impulsively measures for this sample. These results suggest that this group of adolescents may not have been anxious about the driving task. This discrepancy may stem from error introduced by the smaller sample size obtained from the initial findings or to other factors remaining outside the parameters of the current study. The task did, however, induce a slight hypothalamic pituitary adrenal (HPA) axis response indicating some physiological arousal. Males had significantly higher cortisol levels at baseline than females and at time point 3 while approaching significance at time points 2 and 4. Females possessed significantly higher trait anxiety than males and all post task cortisol levels were positively correlated to age while time points 2 and 4 (with time point 3 approaching significance, p=0.09) were inversely correlated with Self Depreciation scores. Additionally, females had Persecutory Ideas scores that were also negatively correlated with cortisol at time points 3 and 4. For both the entire sample and males only, the correlation between post-task cortisol and driving performance was positive and approached significance (p=0.07 and p=0.08, respectively), suggesting that some HPA activation may be facilitative for successful driving task performance. Correlations between driving performance and psychological constructs were explored and discussed with and without respect to gender.

Anxiety in adolescence.

Stress in adolescence.

Risk-taking (Psychology) in adolescence.

adolescent driving

adolescence

stress

Stereotype threat behind the wheel

Yeung, Nai Chi, Psychology, Faculty of Science, UNSW

January 2006

Stereotype threat refers to the pressure that individuals feel when they are at risk of confirming a demeaning stereotype about themselves. Research has found that stereotype threat impairs performance on cognitive-based tasks by inducing mental interference (e.g., Schmader & Johns, 2003). This thesis hypothesised that this finding would generalise to driving and that drivers who are better able to inhibit cognitive interference (i.e., with better inhibitory ability) would be less susceptible to the disruptive effect of stereotype threat than drivers who are less able (i.e., with poorer inhibitory ability). A series of three experiments conducted in a driving simulator tested the predictions using the gender stereotype of driving skills and investigated the interpretation of the results. The experiments revealed that stereotype threat exerted both a facilitative and debilitative influence on driving performance, as indicated by different performance measures. The facilitative effect diminished when drivers experienced increased mental demands or when they were assessed by an unexpected performance measure, while the debilitative effect was more likely observed among drivers who received negative feedback than drivers who received positive feedback. Moreover, the results supported the prediction that inhibitory ability would moderate the detrimental impact of stereotype threat as the performance of drivers with poorer inhibitory ability was impeded more than that of drivers with better inhibitory ability. Regarding the processes underlying the present findings, the experiments provided suggestive evidence that stereotype threat elicits cognitive interference and simultaneously motivates drivers to concentrate on particular performance areas in an attempt to refute the stereotype. In combination, these processes appear to be at least partly responsible for the performance deficits and boosts observed.

Stereotype (Psychology)

Stereotypes (Social psychology)

Bahavior modification

Performance - Evaluation

Operating Speed Models for Low Speed Urban Enviroments based on In-Vehcile GPS

Wang, Jun

07 April 2006

Low speed urban streets are designed to provide both access and mobility, and accommodate multiple road users, such as bicyclists and pedestrians. However, speeds on these facilities often exceed the intended operating speeds as well as their design speeds. Several studies have indicated that the design speed concept, as implemented in the roadway design process in the United States, does not guarantee a consistent alignment that promotes uniform operating speeds less than design speeds. To overcome these apparent shortfalls of the design speed approach, a promising design approach is a performance-based design procedure with the incorporation of operating speeds. Under this procedure, the geometric parameters of the roadways are selected based on their influences on the desired operating speeds. However, this approach requires a clear understanding of the relationships between operating speeds and various road environments. Although numerous studies have developed operating speed models, most of these previous studies have concentrated on high speed rural two-lane highways. In contrast, highway designers and planners have very little information regarding the influence of low speed urban street environments on drivers' speeds. This dissertation investigated the relationship between drivers' speed choices and their associated low speed urban roadway environments by analyzing second-by-second in-vehicle GPS data from over 200 randomly selected vehicles in the Atlanta, Georgia area. The author developed operating speed models for low speed urban street segments based on roadway alignment, cross-section characteristics, roadside features, and adjacent land uses. The author found the number of lanes per direction of travel had the most significant influence on drivers' speeds on urban streets. Other significant variables include on-street parking, sidewalk presence, roadside object density and offset, T-intersection and driveway density, raised curb, and adjacent land use. The results of this research effort can help highway designers and planners better understand expected operating speeds when they design and evaluate low speed urban roadways.

Urban

GPS

Low speed

Operating speed

Speed limits

Automobile driving

Global Positioning System

The effects of sleep deprivation on simulated driving, neurocognitive functioning and brain activity in professional drivers

Jackson, Melinda L.

January 2009

Sleepiness contributes to between 20 and 30% of all heavy vehicle accidents throughout the world each year. Professional drivers are particularly susceptible to the effects of sleepiness, due to chronic or acute sleep deprivation, time-on-task effects, driving at circadian low points, and increased daytime sleepiness resulting from sleep disorders. Population surveys of heavy vehicle drivers indicates that a small proportion of drivers use pharmaceutical means in order to help maintain alertness during long-haul trips. Despite the known benefits of amphetamine-type stimulants on reducing fatigue and sleepiness, epidemiological evidence suggests that a large percentage of fatally injured professional drivers test positive to amphetamines. The primary objective of the current thesis was to determine the underlying causes of these sleep- and drug-related accidents. Experimentally, driving performance can be broken down into specific components that can be examined independently. Measures of behavioural disposition provide an indication of the drivers’ mood, ability to determine a change in performance and sleepiness, and whether the driver can make appropriate decisions regarding their ability to drive safely when sleep-deprived. Simulated driving tasks are commonly used to detect driving-related performance in a controlled and safe environment. The task of driving involves a number of components, including attention and vigilance, processing speed and reaction time, visual processes, and executive functioning, which can be measured using neurocognitive tasks. Smaller, pre-conscious neural processes that are undetected by behavioural tasks may also be affected by sleep deprivation, and in turn, affect driving performance. Electrophysiological (eventrelated potentials; ERPs) and neuroimaging (functional magnetic resonance imaging; fMRI) measures can be used to determine the neural underpinnings of visual and auditory processes after sleep deprivation. The aim of this thesis was to determine the effects of one night of sleep deprivation on these driving-related processes in professional drivers. In Experiment 1, nineteen professional drivers underwent two randomised sessions; one session following a normal night of sleep and one session following 24-hours of sleep deprivation. Behavioural disposition, simulated driving performance, neurocognitive measures related to driving, and visual and auditory ERPs were examined in both sessions. Subjective ratings of sleepiness and sleepiness symptoms increased significantly following sleep deprivation. Simulated driving performance and neurocognitive measures of vigilance and reaction time were impaired after sleep deprivation, whereas tasks examining processing speed and executive functioning were less susceptible to sleep deprivation. Event-related potentials of visual and auditory processing indicated that early visual processes were unaffected by sleep deprivation, whereas the amplitude of later cognitive processing was attenuated after sleep deprivation. Driving also involves the ability of the driver to divide his or her attention between different sensory modalities in the driving environment. Experiment 2 presents a functional neuroimaging experiment examining the effect of sleep deprivation on neural activations that occur in response to a cross-modal divided attention task. There was no significant effect of sleep deprivation on behavioural performance. Following sleep deprivation, increased activation was observed in the temporal gyrus, cerebellum and precuneus, compared to activations observed after normal sleep. As no behavioural changes were observed, the results suggest that additional activation may act as a compensatory mechanism. The restorative effect of d-amphetamine on sleep deprivation related impairment was examined in Experiment 3. This pilot study examined eight professional drivers who were past or current users of amphetamine across four, randomised sessions; after normal sleep with oral placebo, after sleep deprivation with oral placebo, after normal sleep with 0.42mg/kg oral d-amphetamine, and after sleep deprivation and 0.42mg/kg oral d-amphetamine. Measures of behavioural disposition appeared to be more affected by d-amphetamine administration after sleep deprivation compared to simulated driving and neurocognitive performance, however these findings need further clarification in a larger sample. The results of the present thesis highlight the detrimental influence of sleep deprivation on a range of driving-related processes. The experienced, professional drivers in this study were able to recognise signs and symptoms of sleepiness, and acted upon these indicators appropriately. Measures of driving-related performance on both simulated driving, and simple neurocognitive tasks were negatively affected by sleep loss, although there is likely to be a discrepancy between on-road and laboratory behaviour. ERP and neuroimaging findings in the present thesis suggest that these sleep-related behavioural effects are caused by small changes in neural processing and neural recruitment. Sleep deprivation can have large implications for safe driving, and this study highlights the importance of promoting and educating the driving public about the dangers of driving when sleepy.

Automobile driving

Cognition

Motor vehicle drivers

Neuroimaging

Physiological effect

Sleep deprivation

Stereotype threat behind the wheel

Yeung, Nai Chi, Psychology, Faculty of Science, UNSW

January 2006

Stereotype threat refers to the pressure that individuals feel when they are at risk of confirming a demeaning stereotype about themselves. Research has found that stereotype threat impairs performance on cognitive-based tasks by inducing mental interference (e.g., Schmader & Johns, 2003). This thesis hypothesised that this finding would generalise to driving and that drivers who are better able to inhibit cognitive interference (i.e., with better inhibitory ability) would be less susceptible to the disruptive effect of stereotype threat than drivers who are less able (i.e., with poorer inhibitory ability). A series of three experiments conducted in a driving simulator tested the predictions using the gender stereotype of driving skills and investigated the interpretation of the results. The experiments revealed that stereotype threat exerted both a facilitative and debilitative influence on driving performance, as indicated by different performance measures. The facilitative effect diminished when drivers experienced increased mental demands or when they were assessed by an unexpected performance measure, while the debilitative effect was more likely observed among drivers who received negative feedback than drivers who received positive feedback. Moreover, the results supported the prediction that inhibitory ability would moderate the detrimental impact of stereotype threat as the performance of drivers with poorer inhibitory ability was impeded more than that of drivers with better inhibitory ability. Regarding the processes underlying the present findings, the experiments provided suggestive evidence that stereotype threat elicits cognitive interference and simultaneously motivates drivers to concentrate on particular performance areas in an attempt to refute the stereotype. In combination, these processes appear to be at least partly responsible for the performance deficits and boosts observed.

Stereotype (Psychology)

Stereotypes (Social psychology)

Bahavior modification

Performance - Evaluation