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A conductive fibre felt has been developed with high sensitivity over a large surface. It can be tailored to cover a robot arm, its working area or other moving devices.
Mark MacPherson, Steven Dukeshire, Gefu Wang‐Pruski and Vivek Varma
The North American fresh potato market has been in decline for over ten years, yet little consumer research has penetrated beyond the factors influencing the purchase decision…
Abstract
Purpose
The North American fresh potato market has been in decline for over ten years, yet little consumer research has penetrated beyond the factors influencing the purchase decision. The purpose of this study is to provide a deeper understanding of the purchase decision for the fresh potato by exploring the linkages between the choice tactics employed in the store, post‐purchase evaluations in the home and the value orientations motivating consumption.
Design/methodology/approach
For this study, semi‐structured focus groups were conducted and analyzed using framework analysis.
Findings
This study presents a choice tactic formation and refinement model for the fresh potato that illustrates a feedback process between in‐home evaluations of the fresh potato and the four choice tactics employed at the point of purchase (potato size, color, shape and size uniformity). Each evaluative outcome related back to one of three value orientations (taste, health and lifestyle). Only two of the value orientations (taste and lifestyle) were found to be influencing the formation and refinement of these choice tactics. Positive and negative evaluative outcomes were also found to be dependent on whether participants thought of the potato as either fresh or prepared.
Originality/value
Detailed insights into a feedback process between in‐home evaluations of the fresh potato and the choice tactics employed at the point of purchase.
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Elias K. Xidias, Andreas C. Nearchou and Nikos A. Aspragathos
The purpose of this paper is to develop an efficient method for solving a vehicle scheduling problem (VSP) in 2D industrial environments. An autonomous vehicle is requested to…
Abstract
Purpose
The purpose of this paper is to develop an efficient method for solving a vehicle scheduling problem (VSP) in 2D industrial environments. An autonomous vehicle is requested to serve a set of work centers in the shop floor providing transport and delivery tasks while avoiding collisions with obstacles during its travel. The objective is to find a minimum in length, collision‐free vehicle routing schedule that serves timely as many as possible work centers in the shop floor.
Design/methodology/approach
First, the vehicle's environment is mapped into a 2D B‐Spline surface embedded in 3D Euclidean space using a robust geometric model. Then, a modified genetic algorithm is applied on the generated surface to search for an optimum legal route schedule that satisfies the requirements of the vehicle's mission.
Findings
Simulation experiments show that the method is robust enough and can determine in a reasonable computation time a solution to VSP under consideration.
Originality/value
There is a gap in the literature for methods that face VSP in shop‐floor environments. This paper contributes to filling this gap by implementing a practical method that can be easily programmed and included in a modern service delivery system.
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Md Nazmus Sakib, Theodora Chaspari and Amir H. Behzadan
As drones are rapidly transforming tasks such as mapping and surveying, safety inspection and progress monitoring, human operators continue to play a critical role in ensuring…
Abstract
Purpose
As drones are rapidly transforming tasks such as mapping and surveying, safety inspection and progress monitoring, human operators continue to play a critical role in ensuring safe drone missions in compliance with safety regulations and standard operating procedures. Research shows that operator's stress and fatigue are leading causes of drone accidents. Building upon the authors’ past work, this study presents a systematic approach to predicting impending drone accidents using data that capture the drone operator's physiological state preceding the accident.
Design/methodology/approach
The authors collect physiological data from 25 participants in real-world and virtual reality flight experiments to design a feedforward neural network (FNN) with back propagation. Four time series signals, namely electrodermal activity (EDA), skin temperature (ST), electrocardiogram (ECG) and heart rate (HR), are selected, filtered for noise and used to extract 92 time- and frequency-domain features. The FNN is trained with data from a window of length t = 3…8 s to predict accidents in the next p = 3…8 s.
Findings
Analysis of model performance in all 36 combinations of analysis window (t) and prediction horizon (p) combinations reveals that the FNN trained with 8 s of physiological signal (i.e. t = 8) to predict drone accidents in the next 6 s (i.e. p = 6) achieved the highest F1-score of 0.81 and AP of 0.71 after feature selection and data balancing.
Originality/value
The safety and integrity of collaborative human–machine systems (e.g. remotely operated drones) rely on not only the attributes of the human operator or the machinery but also how one perceives the other and adopts to the evolving nature of the operational environment. This study is a first systematic attempt at objective prediction of potential drone accident events from operator's physiological data in (near-) real time. Findings will lay the foundation for creating automated intervention systems for drone operations, ultimately leading to safer jobsites.
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Luana Lavagnoli Moreira, Rafael Rezende Novais, Dimaghi Schwamback and Salomão Martins de Carvalho Júnior
The most common methodology to estimate erosivity is using rainfall data obtained from rain monitoring stations. However, the quality of this estimation may be compromised due to…
Abstract
Purpose
The most common methodology to estimate erosivity is using rainfall data obtained from rain monitoring stations. However, the quality of this estimation may be compromised due to low density, operational problems and maintenance cost of rainfall monitoring stations, common problem encountered in developing countries such as Brazil. The objective of this study was to evaluate the applicability of pluviometric data obtained by TRMM satellite images for the spatiotemporal characterization of erosivity in the state of Espírito Santo (Brazil).
Design/methodology/approach
For this, rainfall data and annual and monthly erosivities of 71 rainfall stations were statistically compared with those from TRMM images.
Findings
For this, rainfall data and annual and monthly erosivities of 71 rainfall stations were statistically compared with those from TRMM images. The estimate proved that TRMM is efficient since the NSE values were higher than 0.70 and the coefficient of determination was higher than 0.77 for monthly and annual erosivities, but in most months and yearly, erosivity was overestimated.
Practical implications
The use of satellite images to estimate rainfall allowed the spatial representation over time (months) of the oscillating degree of erosivity in the state of Espírito Santo (Brazil). The spatialization may provide an identification of areas and periods in which are essential for the implementation of land use management in order to minimize environmental problems related to soil loss.
Originality/value
The technique applied may be an alternative to overcome common problems on rainfall monitoring station, such as low density, low data reliability, high manutention and maintenance cost and operational problems.
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B.S. Dhillon, A.R.M. Fashandi and K.L. Liu
This paper presents a review of published literature on robot reliability and safety. The literature is classified into three main categories: robot safety; robot reliability; and…
Abstract
This paper presents a review of published literature on robot reliability and safety. The literature is classified into three main categories: robot safety; robot reliability; and miscellaneous. Robot safety is further categorized into six classifications: general; accidents; human‐factors; safety standards; safety methods; and safety systems/technologies. The period covered by the review is from 1973 to 2001.
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Kalaipriyan Thirugnanasambandam, Raghav R.S., Jayakumar Loganathan, Ankur Dumka and Dhilipkumar V.
This paper aims to find the optimal path using directionally driven self-regulating particle swarm optimization (DDSRPSO) with high accuracy and minimal response time.
Abstract
Purpose
This paper aims to find the optimal path using directionally driven self-regulating particle swarm optimization (DDSRPSO) with high accuracy and minimal response time.
Design/methodology/approach
This paper encompasses optimal path planning for automated wheelchair design using swarm intelligence algorithm DDSRPSO. Swarm intelligence is incorporated in optimization due to the cooperative behavior in it.
Findings
The proposed work has been evaluated in three different regions and the comparison has been made with particle swarm optimization and self-regulating particle swarm optimization and proved that the optimal path with robustness is from the proposed algorithm.
Originality/value
The performance metrics used for evaluation includes computational time, success rate and distance traveled.
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Xiaoyuan Wang, Yongqing Guo, Chen Chen, Yuanyuan Xia and Yaqi Liu
This study aims to analyze the differences of electrocardiograph (ECG) characteristics for female drivers in calm and anxious states during driving.
Abstract
Purpose
This study aims to analyze the differences of electrocardiograph (ECG) characteristics for female drivers in calm and anxious states during driving.
Design/methodology/approach
The authors used various materials (e.g. visual materials, auditory materials and olfactory materials) to induce drivers’ mood states (calm and anxious), and then conducted the real driving experiments and driving simulations to collect driver’s ECG signal dynamic data. Physiological changes in ECG during the stimulus process were recorded using PSYLAB software. The paired T-test analysis was conducted to determine if there is a significant difference in driver’s ECG characteristics between calm and anxious states during driving.
Findings
The results show significant differences in the characteristic parameters of female driver’s ECG signals, including (average heart rate), (atrioventricular interval), (percentage of NN intervals > 50ms), (R wave average peak), (Root mean square of successive), (Q wave average peak) and ( S wave average peak), in time domain, frequency domain and waveform in emotional states of calmness and anxiety.
Practical implications
Findings of this work show that ECG can be used to identify driver’s anxious and calm states during driving. It can be used for the development of personalized driver assistance system and driver warning system.
Originality/value
Only a few attempts have been made on the influence of human emotions on physiological signals in the transportation field. Hence, there is a need for transport scholars to begin to identify driver’s ECG characteristics under different emotional states. This study will analyze the differences of ECG characteristics for female drivers in calm and anxious states during driving to provide a theoretical basis for developing the intelligent and connected vehicles.
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Marco Francesco Mazzù, Angelo Baccelloni and Simona Romani
Front-of-pack nutritional labels have been extensively studied to support consumers in making healthier and more informed food choices. However, existing research has gathered…
Abstract
Purpose
Front-of-pack nutritional labels have been extensively studied to support consumers in making healthier and more informed food choices. However, existing research has gathered conflicting evidence about which category of label, nutrient-specific or summary labels, is more effective. As a result, the European Union has postponed its decision on selecting a unified label to collect additional information. This study specifically focusses on individuals with noncommunicable diseases, an overlooked yet relevant segment of consumers who can significantly benefit from the proper use of nutritional labels in their self-care.
Design/methodology/approach
In a sequence of three studies grounded in the front-of-pack acceptance model and focussing on customers with specific noncommunicable diseases, the authors examined the different effects of the NutrInform Battery and Nutri-Score on food acceptance and portion selection. This research involved the use of structural equation modelling and ANOVA and was conducted with a cumulative sample of 2,942 EU adults, residing in countries with or without previous exposure to nutritional labels.
Findings
The results suggest that among individuals with noncommunicable diseases, nutrient-specific labels are perceived as more useful and easier to use. They also generate a better attitude towards the usage of nutritional labels and are more effective in nudging those consumers towards a proper selection of portions.
Social implications
The results provide valuable insights into how front-of-pack nutritional labels can impact the food choices of individuals with noncommunicable diseases and have implications for public health policies.
Originality/value
Investigation of the effects of NutrInform Battery and Nutri-Score on consumers with noncommunicable diseases, an area currently under-researched.
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Minelle E. Silva, José Milton de Sousa-Filho, Amanda Pruski Yamim and Abílio Peixoto Diógenes
The purpose of this paper is to investigate the relationship between consumers’ skepticism and green consumption in different economies by exploring antecedents and consequences…
Abstract
Purpose
The purpose of this paper is to investigate the relationship between consumers’ skepticism and green consumption in different economies by exploring antecedents and consequences of skepticism.
Design/methodology/approach
Using a cross-country approach, with data from Brazil and France, the relationships between green skepticism and downstream consequences (e.g. intention to purchase green products) were analyzed using the partial least squares path modeling with the results of 996 questionnaires.
Findings
Contradicting previous research, the authors found that in France, green skepticism represents consumers’ increased green advertising elaboration, not a disbelief in companies’ claims, and it is associated with greater intentions to make green purchases. Meanwhile, in Brazil, green skepticism represents consumers’ disbelief, which is associated to consumers greater suspicion toward (and distance from) companies’ claims in such country. This study shows that the role of skepticism and the valence of its effect on green attitudes depend on market relationships.
Research limitations/implications
The authors promote the importance of investigating the different meanings of skepticism across countries, what can spill over on research of other marketing aspects, such as advertising elaboration. Managers should consider the importance of consumers’ doubts and skepticism as a useful element that can be explored in green advertising effectiveness.
Practical implications
Managers should consider the importance of consumers’ doubts and skepticism as a useful element that can be explored in green advertising effectiveness.
Originality/value
This research examines an underexplored debate on the role of green skepticism in different economies and demonstrates the nuances green advertising impact on both markets.
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