Integrating Walking for Transportation and Physical Activity for Sedentary Office Workers in Texas

Wieters, Kathleen M.

2009 August 1900

The workplace is considered a strategic location for health promotion. According to the Texas Workforce Commission, office workers represent up to 40% of the workforce in Texas and the general nature of the type of work is sedentary. Additional study is needed on how the built environment near the worksite area impacts walking behaviors and to determine interventions effective in increasing walking as part of daily routines among office workers. The two aims of this dissertation were: 1) investigate the differences that urban and suburban settings may have on walking behavior (walk trips, walk duration, total step count) of office workers in Texas and 2) to examine the impact of a simple intervention in increasing walking within the respective land use settings. This study utilized on-line survey and travel diary, pedometer, and Geographic Information System to capture the study variables, which included personal, social and cultural, organizational, and built environmental factors. Results showed that urban office workers walk, on average, 600 steps more per day than the suburban office workers. Office workers in both land use settings on average have not met the recommended level of walking steps per day of 10,000 steps per day (Urban Mean=4,932 steps per day, Suburban Mean=4,347 steps per day). Post-intervention step count averaged 5,734 steps per day for urban office workers in contrast to 4,257 steps per day for suburban office workers. This translated to a 16% increase and 2% decrease in walking steps for urban and suburban office workers, respectively. The built environment in terms of land use setting, urban versus suburban, and availability of land use destinations showed associations with walking behavior for office workers. Destinations positively associated with the number of walking trips, including access to bookstores and coffee shops. Access to convenience stores and food establishments for suburban office workers were more relevant for walking duration. Significant destinations for the urban office workers' walking duration per week included the number of banks and food establishments within one fourth mile from their office building. The results for the second aim, testing the tailored information intervention, were informative, though not significant. The intervention did not yield a significant change in walking step count, but provided insight on opportunities for future studies.

transportation

physical activity

walking behavior

pedometer

office workers

Analysis and Modeling of Pedestrian Walking Behaviors Involving Individuals with Disabilities

Sharifi, Mohammad Sadra

01 May 2016

The objective of this dissertation was to study walking behaviors of pedestrian groups involving individuals with disabilities. To this end, large scale controlled walking experiments were conducted at Utah State University (USU) to examine walking behaviors in various walking facility types, such as passageway, right angle, oblique angle, queuing area, bottleneck, and stairs. Walking experiments were conducted over four days involving participants with and without disabilities. Automated video identification and semi-structured questionnaires were used to collect revealed and stated walking data. This study provided statistical analysis and models to study three different aspects of operational walking behaviors. Firstly, walking speed was examined as one of the most important behavioral variables. The differences in crowd walking speeds were carefully noted in analyzing the effects of adding individuals with disabilities and the impacts of different indoor walking facilities. Results showed that the presence of individuals with disabilities in a crowd significantly reduces the overall crowd speed. Statistical analysis also provided to compare walking speeds of pedestrian groups involving individuals with disabilities in different walking environments. Secondly, the dissertation proposed a framework to study the interactions of different pedestrian groups. Specifically, a mixed time headway distribution model was used to examine the time headway between followers and different leader types. In addition, the implications of interaction behaviors were studied based on the capacity of the queuing area behind the doorway. Results revealed that: (1) individuals with disabilities had significant effects on capacity reduction; (2) individuals with visual impairments and non-motorized ambulatory devices had the minimum capacity reduction effects in queuing area; and (2) individuals with motorized wheelchairs and individuals with mobility canes had the maximum capacity reduction effects in queuing area. Lastly, this study explored how a heterogeneous mix of pedestrians (including individuals with disabilities) perceive and evaluate operational performance of walking facilities. Both trajectory and survey data sources were used, and an ordered statistical approach was applied to analyze pedestrian perceptions. Results indicated that individuals with disabilities were less tolerant of extreme congested environments. Furthermore, analysis showed that the Level of Service (LOS) criteria provided in HCM does not follow the actual perceptions.

statistical modeling

Walking behavior

pedestrian

individuals with disabilities

Civil and Environmental Engineering

Cortical and Thalamic Contribution to Visual and Somatosensory Control of Locomotion in the Cat

January 2016

abstract: Navigation through natural environments requires continuous sensory guidance. In addition to coordinated muscle contractions of the limbs that are controlled by spinal cord, equilibrium, body weight bearing and transfer, and avoidance of obstacles all have to happen while locomotion is in progress and these are controlled by the supraspinal centers. For successful locomotion, animals require visual and somatosensory information. Even though a number of supraspinal centers receive both in varying degrees, processing this information at different levels of the central nervous system, especially their contribution to visuo-motor and sensory-motor integration during locomotion is poorly understood. This dissertation investigates the patterns of neuronal activity in three areas of the forebrain in the cat performing different locomotor tasks to elucidate involvement of these areas in processing of visual and somatosensory information related to locomotion. In three studies, animals performed two contrasting locomotor tasks in each and the neuronal activities were analyzed. In the first study, cats walked in either complete darkness or in an illuminated room while the neuronal activity of the motor cortex was recorded. This study revealed that the neuronal discharge patterns in the motor cortex were significantly different between the two illumination conditions. The mean discharge rates, modulation, and other variables were significantly different in 49% of the neurons. This suggests a contextual correlation between the motor cortical activity and being able to see. In two other studies, the activities of neurons of either the somatosensory cortex (SI) or ventrolateral thalamus (VL) were recorded while cats walked on a flat surface (simple locomotion) or along a horizontal ladder where continuous visual and somatosensory feedback was required (complex locomotion). We found that the activity of all but one SI cells with receptive fields on the sole peaked before the foot touched the ground: predictably. Other cells showed various patterns of modulation, which differed between simple and complex locomotion. We discuss the predictive and reflective functionality of the SI in cyclical sensory-motor events such as locomotion. We found that neuronal discharges in the VL were modulated to the stride cycle resembling patterns observed in the cortex that receives direct inputs from the VL. The modulation was stronger during walking on the ladder revealing VL’s contribution to locomotion-related activity of the cortex during precision stepping. / Dissertation/Thesis / Doctoral Dissertation Neuroscience 2016

Neurosciences

cat

locomotion

motor cortex

precision stepping

sensory motor integration

walking behavior

Analysis of Walking and Route-Choice Behavior of Pedestrians inside Public Transfer Stations : A Study on how pedestrians behave in the approaching vicinity of level-change facilities,and how it affects their walking and route-choice behavior

Monte Malveira, Daniel

January 2019

Pedestrian walking and choice behavior presented was first studied by Fruin in 1971, and since then a lot of research have been carried out in order to understand how humans move and what does make them make choices and obtain certain patterns. In relation to pedestrians, a significant bottleneck inside public stations evaluated by research are the level-change facilities, as Stair Walks and Escalators. The aim of this research is studying how pedestrian behave in the vicinity to stairways and escalators, and how does that affect pedestrian choice, speed and acceleration when choosing one of the two facilities. Also, with a need for more data on pedestrian traffic, further data collection is a big requirement to analyze their behavior and use as tools in future measures. At last, how to optimize the movement of pedestrians in relation to level changes, considering the effects of the movements observed. Two case studies were analysed, Stockholm Central Station and Uppsala Central Station.The study compares data collection methods, tracking methods and previous studies to better fit the scope of this research. The data is backed up from previous research and explains which method better fitted the options available. As a result, video data collection was chosen to collect the data, a semi-automatic tracking software called T-analyst was used to extract speed, trajectories and acceleration from the videos, and microsimulation modelling from VISSIM further investigated different design options to optimize the overall performance and improve travel time in the same area. The analysis found out that there was a possibility to increase the overall performance of the location in higher flow levels, where the most significant queues could be seen, since there was the possibility to achieve higher speeds by modifying the width and position of the stair walks, which allow for a smaller queue in both directions.

Pedestrian Walking Behavior

Pedestrian Route-Choice Behavior

Approaching Vicinity

Surrounding Environment

T-analyst

VISSIM

microsimulation.

Engineering and Technology

Teknik och teknologier