Summary
- Product area key:
monitoring-platform - Total papers: 45
- Research papers hub
- All product areas
Topics
- Audio Acoustics (7)
- Bee Behaviour (8)
- Computer Vision (10)
- Datasets Benchmarks (5)
- Edge AI Energy (5)
- IoT Sensors (35)
- Pollination Ecology (4)
- Reviews Surveys (13)
Years
- 2026 (5)
- 2025 (5)
- 2024 (8)
- 2023 (8)
- 2022 (4)
- 2021 (4)
- 2020 (3)
- 2019 (2)
- 2017 (1)
- 2016 (1)
- Unknown year (4)
Papers by year
2026
- Acoustic Signatures of Hive: Detecting Queen Bee Absence Through Machine Learning of Short Audio Segments — 🇨🇱 Universidad de Viña del Mar; 🇨🇱 Universidad Técnica Federico Santa María
- Assessing Honey Bee Colony Health Using Temperature Time Series — 🇦🇺 The University of Sydney; 🇦🇺 Macquarie University
- BeeVe: Unsupervised Acoustic State Discovery in Honey Bee Buzzing — arXiv author-supplied preprint by Hamze Hammami and Nidhal Abdulaziz
- M3DANet: A Lightweight Semi-Supervised Network and Embedded System for Bee Colony Counting — 🇨🇳 Shandong Agricultural University; 🇨🇳 Apiculture Institute of Jiangxi Province
- STAG-CN: Spatio-Temporal Apiary Graph Convolutional Network for Disease Onset Prediction in Beehive Sensor Networks — 🇰🇷 Korea University
2025
- A Survey of TinyML Applications in Beekeeping for Hive Monitoring and Management — 🇦🇺 University of Technology Sydney; 🇦🇺 BeeSTAR
- Buzzing with Intelligence: A Systematic Review of Smart Beehive Technologies — 🇭🇷 University of Split
- Fast, accurate measurement of the worker populations of honey bee colonies using deep learning — 🇺🇸 Arizona State University; 🇺🇸 Texas A&M University–Kingsville
- IoT and Machine Learning Techniques for Precision Beekeeping:A Review — 🇺🇬 Makerere University; 🇹🇿 Dar es Salaam Institute of Technology
- UrBAN: Urban Beehive Acoustics and PheNotyping Dataset — 🇨🇦 Institut National de la Recherche Scientifique; 🇨🇦 Université Laval; 🇨🇦 Nectar Technologies Inc.
2024
- Advances in Beehive Monitoring Systems: Low-Cost Integrating Sensor Technology forImproved Apiculture Management — 🇷🇴 Research and Development Institute for Wildlife and Mountain Resources Miercurea Ciuc; 🇷🇴 Sapientia Hungarian University of Transylvania; 🇷🇴 National Institute for Research and Development in Environmental Protection; 🇷🇴 National Institute for Research and Development in Forestry "Marin Dracea"
- Bee Together: Joining Bee Audio Datasets for Hive Extrapolation in AI-Based Monitoring — 🇫🇷 University of Toulouse
- Beehive Smart Detector Device for the Detection of CriticalConditions That Utilize Edge Device Computations and DeepLearning Inferences — 🇬🇷 University of Ioannina
- Intelligent beehive monitoring system based on internet of things and colony state analysis — 🇲🇾 Universiti Teknologi MARA; 🇨🇳 Peking University Shenzhen Graduate School; 🇨🇳 Xiamen University; 🇨🇳 Fujian Agriculture And Forestry University; 🇨🇳 Quanzhou University of Information Engineering
- Internet of Things Smart Beehive Network: Homogeneous Data,Modeling, and Forecasting the Honey Robbing Phenomenon — 🇵🇱 Warsaw University of Life Sciences
- Mapping Crop Types for Beekeepers Using Sentinel-2 Satellite Image Time Series: Five Essential Crops in the Pollination Services — 🇨🇦 Université de Montréal
- MSPB: a longitudinal multi-sensor dataset with phenotypic trait measurements from honey bees — 🇨🇦 Institut National de la Recherche Scientifique; 🇨🇦 Université Laval; 🇨🇦 Nectar Technologies Inc.
- The Use of Products with a Monitoring System for Remote Bee Detection in Beekeeping in Czechia — 🇨🇿 Brno University of Technology
2023
- Bee colony remote monitoring based on IoT using ESP-NOW protocol — 🇱🇻 Latvia University of Life Sciences and Technologies
- Comparing weight dynamics between urban and rural honeybee colonies in Latvia — 🇱🇻 Latvia University of Life Sciences and Technologies
- HiveLink – IoT based Smart Bee Hive MonitoringSystem — 🇮🇳 St. Joseph Engineering College; 🇮🇳 Canara Engineering College
- Importance of GIS solutions for beekeepers: a review — 🇱🇻 Latvia University of Life Sciences and Technologies
- Machine Learning and Computer Vision Techniques in Continuous Beehive Monitoring Applications: A Survey — 🇨🇿 Brno University of Technology
- Pollinators as Data Collectors Estimating Floral Diversity with Bees and Computer Vision
- Precision Beekeeping Systems: State of the Art, Pros and Cons, and Their Application as Tools for Advancing theBeekeeping Sector — 🇮🇹 University of Tuscia; 🇮🇹 University of Napoli Federico II
- Raspberry Pi Bee Health Monitoring Device — 🇨🇿 Brno University of Technology
2022
- Digital Transformation of Beekeeping through the Use of a Decision Making Architecture — 🇫🇷 Efrei Research Lab; 🇫🇷 PSL University
- Evaluation of the honey bee colonies weight gain during theintensive foraging period — 🇱🇻 Latvia University of Life Sciences and Technologies
- Integration of Scales and Cameras in Nondisruptive ElectronicBeehive Monitoring: On the Within-Day Relationship of HiveWeight and Traffic in Honeybee (Apis mellifera) Colonies in Langstroth Hives in Tucson, Arizona, USA — 🇺🇸 Utah State University
- Smart Beehive Monitoring for Remote Regions - PhD thesis — 🇦🇺 University of Western Australia
2021
- Audio, Image, Video, and Weather Datasets for Continuous Electronic Beehive Monitoring — 🇺🇸 Utah State University
- Self-Powered Smart Beehive Monitoring and ControlSystem (SBMaCS) — 🇷🇼 University of Rwanda; 🇿🇲 Copperbelt University; 🇷🇼 National Council of Science and Technology
- Semi-Supervised Audio Representation Learning for Modeling Beehive Strengths — 🇺🇸 X, the Moonshot Factory; 🇺🇸 Caltech; 🇺🇸 Google; 🇺🇸 University of Wisconsin-Madison; 🇺🇸 Washington State University
- Toward an intelligent and efficient beehive: A survey of precision beekeeping systems and services — 🇫🇷 aivancity School for Technology; 🇫🇷 Université de Lyon
2020
- Analysis of Energy Consumption in a Precision Beekeeping System
- Current achievements and future developments of a novel AI based visual monitoring of beehives in ecotoxicology and for the monitoring of landscape structures
- Model for the bee apiary location evaluation — 🇱🇻 Latvia University of Life Sciences and Technologies; 🇩🇪 Humboldt University of Berlin
2019
- Automated monitoring of bee behaviour using connected hives Towards a computational apidology
- Modular sensory hardware and data processing solution forimplementation of the precision beekeeping — 🇱🇻 Latvia University of Life Sciences and Technologies; 🇩🇪 University of Kassel
2017
- Solution for automated bee colony weight monitoring — 🇱🇻 Latvia University of Agriculture
2016
- Honey Bee Colonies Remote Monitoring System — 🇪🇸 University of Córdoba
Unknown year
- Application of Data Layering in Precision Beekeeping The Concept
- Impact of the precision beekeeping on the living environment
- myBee: An Information System for Precision Beekeeping — 🇧🇷 State University of Maringa; 🇧🇷 Federal University of Rio de Janeiro
- Precision Apiculture – IoT System for Remote Monitoring of Honeybee Colonies — 🇲🇰 Ss. Cyril and Methodius University