A Two-Mode Underwater Smart Sensor Object for Precision Aquaculture Based on AIoT Technology

Chang, Chin-Chun; Ubina, Naomi A.; Cheng, Shyi-Chyi; Lan, Hsun-Yu; Chen, Kuan-Chu; Huang, Chin-Chao

doi:10.3390/s22197603

Cited by 10 publications

(9 citation statements)

References 58 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Digital twin-based intelligent fish farming [130] and two-mode underwater smart sensor objects [131] exemplify the innovative use of IoT and AI/ML in aquaculture. These technologies contribute to real-time monitoring, early disease detection, and efficient resource management.…”

Section: Aquaculturementioning

confidence: 99%

“…The convergence of agriculture with AI and ML technologies offers opportunities for predictive analytics, optimization, and intelligent decision-making. According to several authors, incorporating Generative Adversarial Networks (GANs), hyperparameter optimization, and deep learning techniques can lead to improvements in image conversion, model refinement, and the identification of more efficient learning parameters [94,96,131,148]. It is crucial to continually improve models, which involves updating them after deployment, using meta-heuristic-optimized techniques, and incorporating evolutionary algorithms for hyperparameter optimization [96,148,179].…”

Section: Ai/ml Opportunitiesmentioning

confidence: 99%

See 1 more Smart Citation

IoT Solutions with Artificial Intelligence Technologies for Precision Agriculture: Definitions, Applications, Challenges, and Opportunities

Senoo,

Anggraini,

Kumi

et al. 2024

Electronics

View full text Add to dashboard Cite

The global agricultural sector confronts significant obstacles such as population growth, climate change, and natural disasters, which negatively impact food production and pose a threat to food security. In response to these challenges, the integration of IoT and AI technologies emerges as a promising solution, facilitating data-driven decision-making, optimizing resource allocation, and enhancing monitoring and control systems in agricultural operations to address these challenges and promote sustainable farming practices. This study examines the intersection of IoT and AI in precision agriculture (PA), aiming to provide a comprehensive understanding of their combined impact and mutually reinforcing relationship. Employing a systematic literature review following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 guidelines, we explore the synergies and transformative potential of integrating IoT and AI in agricultural systems. The review also aims to identify present trends, challenges, and opportunities in utilizing IoT and AI in agricultural systems. Diverse forms of agricultural practices are scrutinized to discern the applications of IoT and AI systems. Through a critical analysis of existing literature, this study contributes to a deeper understanding of how the integration of IoT and AI technologies can revolutionize PA, resulting in improved efficiency, sustainability, and productivity in the agricultural sector.

show abstract

Section: Aquaculturementioning

confidence: 99%

Section: Ai/ml Opportunitiesmentioning

confidence: 99%

IoT Solutions with Artificial Intelligence Technologies for Precision Agriculture: Definitions, Applications, Challenges, and Opportunities

Senoo,

Anggraini,

Kumi

et al. 2024

Electronics

View full text Add to dashboard Cite

show abstract

“…With such algorithms, only acoustic networks can be formed, and the various latencies present at each node can be reduced by roughly 73 percent by using the technique for data collection. Since a non-intrusive form of representation will be left empty, the entire underwater operation can be modified by employing two modes with clever sensor detection processes ( Chang et al, 2022 ). The majority of imaging devices won’t function well in an empty space; hence, sonar representation systems should be used instead of wireless modules.…”

Section: Background and Related Workmentioning

confidence: 99%

Diagnostic structure of visual robotic inundated systems with fuzzy clustering membership correlation

Manoharan,

Selvarajan,

Aluvalu

et al. 2023

PeerJ Computer Science

View full text Add to dashboard Cite

The process of using robotic technology to examine underwater systems is still a difficult undertaking because the majority of automated activities lack network connectivity. Therefore, the suggested approach finds the main hole in undersea systems and fills it using robotic automation. In the predicted model, an analytical framework is created to operate the robot within predetermined areas while maximizing communication ranges. Additionally, a clustering algorithm with a fuzzy membership function is implemented, allowing the robots to advance in accordance with predefined clusters and arrive at their starting place within a predetermined amount of time. A cluster node is connected in each clustered region and provides the central control center with the necessary data. The weights are evenly distributed, and the designed robotic system is installed to prevent an uncontrolled operational state. Five different scenarios are used to test and validate the created model, and in each case, the proposed method is found to be superior to the current methodology in terms of range, energy, density, time periods, and total metrics of operation.

show abstract

“…Digital twins facilitate the implementation of digital aquaculture employing smart technologies to perform data acquisition, analysis, and complex decision-making from fish ponds or sea cages [25,26]. As the fusion of big data, real-time information from the individual farm, and AI, digital twins enhance the efficiency of fish farming, maximize production, reduce cost, and optimize the decision-making process.…”

Section: Literature Reviewsmentioning

confidence: 99%

Digital Twin Architecture Evaluation for Intelligent Fish Farm Management Using Modified Analytic Hierarchy Process

et al. 2022

Self Cite

View full text Add to dashboard Cite

Precision aquaculture deploys multi-mode sensors on a fish farm to collect fish and environmental data and form a big collection of datasets to pre-train data-driven prediction models to fully understand the aquaculture environment and fish farm conditions. These prediction models empower fish farmers for intelligent decisions, thereby providing objective information to monitor and control factors of automatic aquaculture machines and maximize farm production. This paper analyzes the requirements of a digital transformation infrastructure consisting of five-layered digital twins using extensive literature reviews. Thus, the results help realize our goal of providing efficient management and remote monitoring of aquaculture farms. The system embeds cloud-based digital twins using machine learning and computer vision, together with sensors and artificial intelligence-based Internet of Things (AIoT) technologies, to monitor fish feeding behavior, disease, and growth. However, few discussions in the literature concerning the functionality of a cost-effective digital twin architecture for aquaculture transformation are available. Therefore, this study uses the modified analytical hierarchical analysis to define the user requirements and the strategies for deploying digital twins to achieve the goal of intelligent fish farm management. Based on the requirement analysis, the constructed prototype of the cloud-based digital twin system effectively improves the efficiency of traditional fish farm management.

show abstract

A Two-Mode Underwater Smart Sensor Object for Precision Aquaculture Based on AIoT Technology

Cited by 10 publications

References 58 publications

IoT Solutions with Artificial Intelligence Technologies for Precision Agriculture: Definitions, Applications, Challenges, and Opportunities

IoT Solutions with Artificial Intelligence Technologies for Precision Agriculture: Definitions, Applications, Challenges, and Opportunities

Diagnostic structure of visual robotic inundated systems with fuzzy clustering membership correlation

Digital Twin Architecture Evaluation for Intelligent Fish Farm Management Using Modified Analytic Hierarchy Process

Contact Info

Product

Resources

About