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1. Muscle Recruitment during Simulated Piece Picking Tasks Commonly Performed in Distribution Centers

   https://doi.org/10.1177/1071181320641231  

   Lavender, Steven A; Chunyi, Sun; Sommerich, Carolyn. (January 2020, Proceedings of the annual meeting of the Human Factors Society)

   null (Ed.)

   One-handed picking tasks are frequently performed when workers are picking small products or smaller quantities of products to fulfill customer orders. Many slotting models have been developed that minimize travel distance based on individual item order frequencies. None of these models have considered the biomechanical costs associated with the item selection process. This project aimed to quantify the physical demands on the back and shoulders as participants performed simulated picking tasks from different shelf heights. In this study, 17 female participants lifted items of two different weights (0.45 and 0.90 kg) from seven shelf heights ( 10.8, 37.1, 63.5, 89.9, 116.2, 142.6, 168.9 cm) and either walked one step prior to picking up the item (lifting task 1) or lifted the item without needing to take a step (lifting task 2). Dependent measures included 90th percentile electro-myographic (EMG) signals from the anterior and lateral deltoid muscles, and the erector spinae muscles, as well as spine and shoulder kinematics, and task durations. EMG data were normalized to maximal voluntary exertions. The results indicated that shelf height has significant effect on the time required to complete both task 1 and task 2. The time of complete task 1, with the one meter travel, is larger than the time to complete task 2 at each layer, and time difference between tasks is relatively consistent, the average of which is 0.75 seconds. The lifting time for shelf heights from 63.5 to 116.2 cm is relatively shorter compared with that at lower and higher shelves. The total time for walking and lifting varies by nearly half a second between the slowest and fastest conditions. This study provides data that can be used to develop slotting guidelines for piece pick operations in distribution centers. Complimentary data are still needed for the full case replenishment tasks to ensure the ergonomic needs of those working the back side of the flow rack are also considered. 

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2. Contralesional recruitment and localization of EEG signal complexity in stroke: A recurrence quantification analysis of hierarchical motor tasks

   https://doi.org/10.1088/1741-2552/ade6ab  

   Sirpal, Parikshat; Parmar, Nishaal; Refai, Hazem; Dewald, Julius_P_A; Yang, Yuan (June 2025, Journal of Neural Engineering)

   Abstract Objective: This study quantifies EEG complexity in chronic hemiparetic stroke patients performing hierarchical motor tasks, examining the degree of contralesional motor resource recruitment in maladaptive neural responses. Approach: We applied recurrence quantification analysis (RQA) and nonlinear dynamical measures to examine spatial patterns of motor-related EEG complexity under varying shoulder abduction torque levels (20% and 40%) in both stroke survivors and healthy control participants, enabling comparative analyses of adaptive neural responses. Results: Our findings show a statistically significant increase in EEG signal complexity within the contralesional hemisphere of stroke participants, particularly under higher shoulder abduction loads. Consistent with previous studies, we observed abnormal muscle coactivation patterns between proximal and distal muscles, along with distinct shifts in EMG vector direction in stroke-impaired limbs. These shifts in coactivation patterns suggest constraints in muscle coactivation patterns resulting from losses in corticofugal projections and upregulated brainstem pathways. Significance: We introduce a novel application of RQA to quantify nonlinear EEG complexity during motor execution in chronic stroke. Unlike traditional spectral or connectivity-based EEG methods, RQA quantifies temporally evolving, nonlinear recurrence patterns that reflect maladaptive contralesional motor recruitment. Our findings demonstrate that increased EEG complexity correlates with impaired motor control and reliance on compensatory pathways, offering new insight into neural reorganization after stroke. These results position RQA as a promising, clinically meaningful, and computationally efficient tool to evaluate cortical dynamics and guide targeted neurorehabilitation strategies aimed at minimizing maladaptive plasticity. 

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3. AutoDesc: Facilitating Convenient Perusal of Web Data Items for Blind Users

   https://doi.org/10.1145/3581641.3584049  

   Prakash, Yash; Sunkara, Mohan; Lee, Hae-Na; Jayarathna, Sampath; Ashok, Vikas (March 2023, Proceedings of the 28th International Conference on Intelligent User Interfaces)

   Web data items such as shopping products, classifieds, and job listings are indispensable components of most e-commerce websites. The information on the data items are typically distributed over two or more webpages, e.g., a ‘Query-Results’ page showing the summaries of the items, and ‘Details’ pages containing full information about the items. While this organization of data mitigates information overload and visual cluttering for sighted users, it however increases the interaction overhead and effort for blind users, as back-and-forth navigation between webpages using screen reader assistive technology is tedious and cumbersome. Existing usability-enhancing solutions are unable to provide adequate support in this regard as they predominantly focus on enabling efficient content access within a single webpage, and as such are not tailored for content distributed across multiple webpages. As an initial step towards addressing this issue, we developed AutoDesc, a browser extension that leverages a custom extraction model to automatically detect and pull out additional item descriptions from the ‘details’ pages, and then proactively inject the extracted information into the ‘Query-Results’ page, thereby reducing the amount of back-and-forth screen reader navigation between the two webpages. In a study with 16 blind users, we observed that within the same time duration, the participants were able to peruse significantly more data items on average with AutoDesc, compared to that with their preferred screen readers as well as with a state-of-the-art solution. 

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4. Human Workload and Ergonomics during Human-Robot Collaborative Electronic Waste Disassembly

   https://doi.org/10.1109/ICHMS56717.2022.9980828  

   Chen, Yuhao; Luo, Yue; Yerebakan, Mustafa Ozkan; Xia, Shuyan; Behdad, Sara; Hu, Boyi (November 2022, 2022 IEEE 3rd International Conference on Human-Machine Systems (ICHMS))

   A rapid rise in the recycling and remanufacturing of end-of-use electronic waste (e-waste) has been observed due to multiple factors including our increased dependence on electronic products and the lack of resources to meet the demand. E-waste disassembly, which is the operation of extracting valuable components for recycling purposes, has received ever increasing attention as it can serve both the economy and the environment. Traditionally, e-waste disassembly is labor intensive with significant occupational hazards. To reduce labor costs and enhance working efficiency, collaborative robots (cobots) might be a viable option and the feasibility of deploying cobots in high-risk or low value-added e-waste disassembly operations is of tremendous significance to be investigated. Therefore, the major objective of this study was to evaluate the effects of working with a cobot during e-waste disassembly processes on human workload and ergonomics through a human subject experiment. Statistical results revealed that using a cobot to assist participants with the desktop disassembly task reduced the sum of the NASA-TLX scores significantly compared to disassembling by themselves (p = 0.001). With regard to ergonomics, a significant reduction was observed in participants’ mean L5/S1 flexion angle as well as mean shoulder flexion angle on both sides when working with the cobot (p < 0.001). However, participants took a significantly longer time to accomplish the disassembly task when working with the cobot (p < 0.001), indicating a trade-off of deploying cobot in the e-waste disassembly process. Results from this study could advance the knowledge of how human workers would behave and react during human-robot collaborative e-waste disassembly tasks and shed light on the design of better HRC for this specific context. 

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5. Human-Centered Drone LED Illumination System: A Proof-of-Concept Prototype

   https://doi.org/10.1177/1071181321651124  

   Hao, Shuai; Yerebakan, Mustafa Ozkan; Hu, Boyi (September 2021, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Recent years have seen a rapid increase in drone usage in both commercial and personal use, due to recent changes in guidelines by the Federal Aviation Administration (FAA). In those guidelines, however, there seems to be very few requirements in terms of illumination requirements, apart from the need to use a visible strob ing anti-collision light for nighttime operations. Hence in this study, wereviewed existing LED illumination systems in off-the-shelf drones to determine what type of configurations they have and how is the LED illumination system generally used. We also introduced a customizable LED illumination system and tested it in a human in the loop study. Our p reliminary findings have revealed that the colors that are preferred by the participants did not match the most used colors in existing LED illumination systems in most off-the-shelf drones. We also observed a possible relationship between the color preferred and the weather conditions. 

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