Alansari et al., 2020 - Google Patents
Design of wireless sensor network in the agricultural sectorAlansari et al., 2020
View PDF- Document ID
- 15972496434928511530
- Author
- Alansari Z
- Anuar N
- Belgaum M
- Soomro S
- Publication year
- Publication venue
- 3rd Smart Cities Symposium (SCS 2020)
External Links
Snippet
Any agricultural operations shall sustain appropriate restraints to current production. Therefore, increasing the efficiency and accuracy estimation of environmental conditions must be considered in agriculture. These conditions vary from time to time, so it is advisable …
- 230000001702 transmitter 0 abstract description 5
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Catarinucci et al. | An IoT-aware architecture for smart healthcare systems | |
| Mois et al. | Analysis of three IoT-based wireless sensors for environmental monitoring | |
| Nourildean et al. | Internet of things based wireless sensor network: a review | |
| Malik et al. | Leveraging fog computing for sustainable smart farming using distributed simulation | |
| CN209605863U (en) | Agricultural Environmental Monitoring system | |
| Hamouda et al. | Variable sampling interval for energy-efficient heterogeneous precision agriculture using Wireless Sensor Networks | |
| Selmic et al. | Wireless Sensor Networks | |
| Jadhav et al. | Forest fire monitoring system based on ZIG-BEE wireless sensor network | |
| Li et al. | Smart greenhouse: A real-time mobile intelligent monitoring system based on WSN | |
| Kumar et al. | Wireless sensor networks: a review of motes, wireless technologies, routing algorithms and static deployment strategies for agriculture applications | |
| Kumar et al. | Opportunities and challenges with WSN’s in smart technologies: A smart agriculture perspective | |
| Ali et al. | Incorporating the Markov Chain model in WBSN for improving patients’ remote monitoring systems | |
| Vaquerizo-Hdez et al. | A low power consumption algorithm for efficient energy consumption in zigbee motes | |
| Alhmiedat | Low-power environmental monitoring system for ZigBee wireless sensor network | |
| Alansari et al. | Design of wireless sensor network in the agricultural sector | |
| Cambra et al. | Low cost wireless sensor network for rodents detection | |
| Kumar et al. | Real time paddy crop field monitoring using Zigbee network | |
| Balamurugan et al. | Lora-iot based self-powered multi-sensors wireless network for next generation integrated farming | |
| Chavva et al. | LeHE-MRP: leveraging health monitoring by enhancing throughput of multi-hop routeing protocol in WBANs | |
| Lavanya et al. | A study on WSN based IoT application in agriculture | |
| Li et al. | Design and application of special sensors and internet of things (IoT)-based wireless system for agricultural information monitor | |
| Ahmedy et al. | An estimation of QoS for classified based approach and nonclassified based approach of wireless agriculture monitoring network using a network model | |
| Mohlisin et al. | Palm, rubber plantation and paddy field soil monitoring system using LoRa | |
| Wang et al. | SPARC-LoRa: A Scalable, Power-efficient, Affordable, Reliable, and Cloud Service-enabled LoRa Networking System for Agriculture Applications | |
| Santejudean et al. | Analysis of low-power operation for an environmental monitoring beacon |