Analysis of damage costs in supply chain systems

Alsobhi, Samir; Krishnan, Kannan; Gupta, Deepak; Almaktoom, Abdulaziz T.

doi:10.1504/ijise.2018.088565

Cited by 10 publications

(10 citation statements)

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“…Damage to goods traveling from manufacturers to stores is a possible occurrence [3]. In the case of damaged electronics, defects can be detected even after the customer buys the product.…”

Section: Environmental Condition Parametersmentioning

confidence: 99%

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Low Power Embedded System Sensor Selection for Environmental Condition Monitoring in Supply Chain

Zidar

Matić

Aleksi

et al. 2022

Int. j. electr. comput. eng. syst. (Online)

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In the modern world different products and goods are available throughout the world thanks to the complex supply chain system. Often products are transported on long journeys with different transportation systems where products can be damaged or spoiled. Smart Sticker is a concept for product environmental condition monitoring that can resolve some problems in the supply chain. Smart Sticker will record product environmental data in the supply chain and enable producer/consumer product monitoring. Because of ultra-low power design, Smart Sticker component selection must satisfy ultra-low power specifications, besides standard accuracy, and real-time implementation. In this paper we give an overview of the necessary measured environmental parameters and the selection of sensors with emphasis on low power design. We provided a model for the calculation of the maximum operating time, which is applied for the two Smart Sticker instances with significantly different energy consumptions. In the worst-case scenario operation time is 198 days which can be increased with a higher capacity battery

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“…Damage to goods traveling from manufacturers to stores is a possible occurrence [3]. In the case of damaged electronics, defects can be detected even after the customer buys the product.…”

Section: Environmental Condition Parametersmentioning

confidence: 99%

“…For vegetable commodities and products, spillage during transportation and degradation during handling are most common. Fish products are more prone to degradation during icing in the process of packaging, storage, and transportation, while for milk products spillage hazard is most common [3], [4].…”

Section: Introductionmentioning

confidence: 99%

Low Power Embedded System Sensor Selection for Environmental Condition Monitoring in Supply Chain

Zidar

Matić

Aleksi

et al. 2022

Int. j. electr. comput. eng. syst. (Online)

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“…The main stages include transportation, warehousing, inventory, packaging, information, and control. Packaged products in the supply chain bear a particular risk of physical damage owing to different hazards that include shocks, vibrations, temperature, humidity, light, and pressure [ 1 , 2 , 3 ].…”

Section: Introductionmentioning

confidence: 99%

“…An instance of a Smart Sticker device depends on the application, i.e., the type and the number of sensors vary. For instance, when a package of frozen fish is monitored in the supply chain, the Smart Sticker device has one or more temperature sensors, with the battery resistant to low temperatures [ 2 , 3 , 6 ].…”

Section: Introductionmentioning

confidence: 99%

Smart Sticker Ultra-Low-Power Shock Detection in the Supply Chain

Matić

Zidar

Aleksi

et al. 2022

Sensors

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This paper presents a shock detection device for packages in the supply chain. The primary purpose is to identify package damage during storage, delivery, and handling. Additionally, products are likely to be damaged if dropped from a certain height, which sometimes does not appear on the package. By continuously measuring package vibrations and detecting shocks in the supply chain, consumers can gain an insight into the state of the product upon delivery. This paper presents the Smart Sticker implementation for ultra-low-power shock detection in the supply chain. The overall energy consumption must be kept as low as possible while continuously sensing the presence of shock to ensure that the Smart Sticker’s battery lasts as long as possible. The Smart Sticker functions in three modes to meet the established constraints: low-power, active, and data transfer mode. While detecting the shock, the low-power mode uses the least amount of energy needed. If the shock exceeds the threshold, the Smart Sticker enters active mode, stores the detected g force value in memory, and then switches back to low-power mode. Finally, employing Near Field Communication (NFC) and energy harvesting, the data transfer mode allows the consumer to read the recorded data. The results show that the Smart Sticker for shock detection performs according to set requirements and successfully monitors and detects shock for packages in the supply chain.

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“…Even though a chain can only be formed when a win–win situation and profitability maximisation for all members is established, is difficult since some benefits of joining the chain are difficult to quantify in monetary terms (Chiadamrong and Wajcharapornjinda, 2012). Usually, the risks with a low probability of occurrence are the ones that lead to high costs (Alsobhi et al , 2018). It is crucial to know the risks presented in SCM, and these risks can be defined as any factors that result in interruptions in the flow of materials, information and funds in a supply chain that result in undesirable consequences and vulnerability (Vishnu et al , 2019).…”

Section: Introductionmentioning

confidence: 99%

Supply chain cost research: a bibliometric mapping perspective

Ramos

Dien

Gonzales

et al. 2020

BIJ

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PurposeThe purpose of this paper is to review the literature on logistics and supply chain costs to provide an analysis of sources of publication, citations and authorship using bibliometric analysis techniques (VOSviewer and CitNetExplorer tools).Design/methodology/approachA review of 756 articles published during the period 2014 to 2019 referenced in the Scopus database was performed. The review was limited to articles published in English and directly related to logistics and supply chain costs.FindingsThe research identified more than 2,000 authors representing more than 5,000 keywords and 10,000 references from a total of 155 journals investigated. A critical synthesis of the resulting data revealed several insights about various aspects of studies in this field. For instance, the review identified a scarcity of academic publications in three key areas, namely “supply chain,” “optimization” and “transportation”, which are concepts focused on the total supply chain.Originality/valueThis research highlights important areas of attention for both researchers and practitioners considering costs associated with logistics and supply chain operations and strategies. The results can also help identify thematic areas, journals and topics for future research. The paper identifies and proposes research areas to contribute to the literature when challenges to investigating logistics and supply chain costs are discussed.

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Analysis of damage costs in supply chain systems

Cited by 10 publications

References 0 publications

Low Power Embedded System Sensor Selection for Environmental Condition Monitoring in Supply Chain

Low Power Embedded System Sensor Selection for Environmental Condition Monitoring in Supply Chain

Smart Sticker Ultra-Low-Power Shock Detection in the Supply Chain

Supply chain cost research: a bibliometric mapping perspective

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