Modeling and evaluation of quality monitoring based on wireless sensor and blockchain technology for live fish waterless transportation

Feng, Huanhuan; Zhang, Mengjie; Gecevska, Valentina; Chen, Bingqi; Saeed, Rehan; Zhang, Xiaoshuan

doi:10.1016/j.compag.2021.106642

Cited by 31 publications

(9 citation statements)

References 31 publications

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“…With the unique characteristics such as ultrathin, low modulus, light weight, high flexibility, and stretchability [47], flexible sensors precisely meet the needs in food monitoring: acquiring multi-parameter information in a small space, a more reasonable layout, providing data on packaging deformation [48], and conformably attaching to the surface of the skin [47]. Simultaneously, the new generation of information technology represented by wearable Internet of Things (W-IoT) [49], blockchain [50] and cloud computing, have generated immense interest for the nascent flexible sensing because it can integrate and connect personnel, processes, data, and equipment enabling the high adaptability [51], high precision, multiple scale, dynamic non-destructive monitoring [49]. Flexible sensing in food monitoring has become increasingly significant in recent years [44,52,54,55], and is rapidly evolving in its application scenarios [44,48,52,53,54,55], and manufacturing methodology [44,53].…”

Section: Flexible Sensing Have Emerged As a Prominent Technological A...mentioning

confidence: 99%

Flexible sensors for food monitoring. Part I: Principle

Luo,

Nikitina,

Xiao

2024

Food systems

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Monitoring and maintaining food quality, safety, and authenticity are the most important concerns in the food industry. The cutting-edge flexible sensors for food monitoring precisely meet the needs of acquiring information on multiple parameters in small space and more reasonable layout, providing data on mechanical deformations, and conformably attaching to arbitrarily curved surfaces. Flexible sensing materials with a large specific surface area, high carrier mobility and carrier density, dense active sites, outstanding tunability, and processability, such as two-dimensional carbon nanomaterials, conductive polymers, and nanohybrid materials, have further improved the sensitivity, stability, and selectivity of flexible sensors. This article attempts to critically review state-of-the-art developments with respect to materials, fabrication techniques, and sensing mechanisms of devices, as well as the applications of the electrically-transduced flexible sensors. In addition, this review elaborates on the transduction mechanisms of several typical transducers, with a focus on the physics behind, including the modulation of doping level, Schottky barrier, and interfacial layer that typically lead to changes in conductivity, work function, and permittivity. We also highlight the benefits, technical challenges with corresponding solutions of current flexible sensors, and discuss potential strategies to overcome limitations in energy consumption, quantify the trade-offs in maintaining quality and marketability, optimize wireless communication, and explore new sensing patterns.

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Section: Flexible Sensing Have Emerged As a Prominent Technological A...mentioning

confidence: 99%

Flexible sensors for food monitoring. Part I: Principle

Luo,

Nikitina,

Xiao

2024

Food systems

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“…This improves the communication and trust between retailers and consumers because the food details stored in the blockchain are immutable and transparent to all authenticated blockchain members, i.e., consumers and retailers. In addition, Feng et al in [47] introduced the usage of BT for live fish waterless transportation. The main concern for waterless transport is the dynamic change in the environment and oxygen levels where the survival rate of the fish is diminished.…”

Section: Food Storagementioning

confidence: 99%

Blockchain Adoption to Secure the Food Industry: Opportunities and Challenges

et al. 2022

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With the growth in food products’ usage, ensuring their quality and safety has become progressively difficult. Specifically, food traceability turns out to be a very critical task for retailers, sellers, consumers, surveillance authorities, and other stakeholders in the food supply chain system. There are requirements for food authenticity verification (correct declaration of cultivation, origin, and variety), quality checks (e.g., justification for higher prices), and preventing food products from fraudsters in the food industry. The ubiquitous and promising technology of blockchain ensures the traceability of food trade networks with high potential and handles the aforementioned issues. Blockchain makes the food industry more transparent at all levels by storing data immutably and enabling quick tracking across the stages of the food supply chain. Hence, commodities, stakeholders, and semi-finished food items can be recognized significantly faster. Motivated by these facts, in this paper, we present an in-depth survey of state-of-the-art approaches to the food industry’s security, food traceability, and food supply chain management. Further, we propose a blockchain-based secure and decentralized food industry architecture to alleviate security and privacy aspects and present a comprehensive solution taxonomy for a blockchain-based food industry. Then, a comparative analysis of existing approaches with respect to various parameters, i.e., scalability, latency, and food quality, is presented, which facilitates the end-user in selecting approaches based on the merits over other approaches. Finally, we provide insights into the open issues and research challenges with concluding remarks.

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“…The centralized systems lack providing trusted and reliable data that can be used to verify the quality of seafood. The trusted supply chain data is essential for effective audit and regulatory compliance assurance (Feng et al. , 2022).…”

Section: Key Applications Of Blockchain Technology In Quality Managementmentioning

confidence: 99%

Integrating Lean Six Sigma with blockchain technology for quality management – a scoping review of current trends and future prospects

Ahmad

AlKhader²,

Jayaraman³

et al. 2022

TQM

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PurposeThe purpose of this research is to study and analyze the literature that integrates Lean Six Sigma (LSS) approach with blockchain technology in different sectors for improved quality management.Design/methodology/approachThis study presents a scoping review on the application of integrated LSS and blockchain technology in the manufacturing and healthcare sector. Further, the authors examined existing blockchain-based solutions on a variety of dimensions, including application area, technical approach, methodology, application scenario, various blockchain platforms, purpose, and monitoring parameters. The authors study LSS approaches in detail, as well as the key benefits that blockchain technology can enable. Finally, the authors discuss significant research problems to be addressed in order to develop a highly efficient, resilient, and secure quality management framework using blockchain technology.FindingsIt has been observed that the adoption of blockchain technology for quality management and assurance is influenced by several factors such as transaction execution speed, throughput, latency. Also, prior blockchain-based solutions have neglected to leverage the benefits of LSS methodologies for effective quality management.Originality/valueThis is the first study to explores the influence of blockchain technology on quality management and assurance in manufacturing and healthcare industry. Furthermore, prior research has not examined how integrating the LSS methodology with blockchain technology can aid in the control of product quality management.

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Modeling and evaluation of quality monitoring based on wireless sensor and blockchain technology for live fish waterless transportation

Cited by 31 publications

References 31 publications

Flexible sensors for food monitoring. Part I: Principle

Flexible sensors for food monitoring. Part I: Principle

Blockchain Adoption to Secure the Food Industry: Opportunities and Challenges

Integrating Lean Six Sigma with blockchain technology for quality management – a scoping review of current trends and future prospects

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