- #Smart trash monitoring system serial
- #Smart trash monitoring system manual
- #Smart trash monitoring system software
Finally, Section 6 provides the concluding remarks. The experimental results related to surface level attainment, evaluation of current consumption, life expectance, maximum distance transmission and wireless link quality have been presented in Section 5.
#Smart trash monitoring system software
Section 4 describes the WSN in hardware and software aspects. This paper is systematized as follows: Section 2 describes the related work, and schematic diagram is described in Section 3. O Link Quality Indicator versus Packet Delivery Ratio O Received Signal Strength Indicator versus Packet Delivery Ratio
Maximum transmission distance between WMU and WAPU. Ğvaluation of Life expectancy of WMU and WAPU. Ĝalculation of current consumption of WMU and WAPU. #Smart trash monitoring system manual
Ĝomparison between manual and developed system reading.ĝifferent colours are used for different levels of bin.
#Smart trash monitoring system serial
Input from WAPU is given through serial port. Uses C# programming language based on the. Ĝommunication between WAPU and monitoring management software is done by using UART (Universal Asynchronous Receiver / Transmitter). Ĝommunication between WAPU and WMU is done by using SimpliciTi protocol. eZ430- rf2500 programmed in the receiver mode. SimpliciTi protocol is used for the communication between WMU and WAPU. eZ430-rf2500 programmed in the transmitter mode. Interfaced Ultrasonic sensor (HC-SR04) with microcontroller MSP430F2274 present in eZ430-rf2500 development board. 
✓ĝevelopment of Wireless Monitoring Unit (WMU) The major contributions of smart bin level monitoring system are as follows This paper demonstrates the detailed deployment of bin level monitoring system, evaluation of current consumption and wireless links. The prime focus of this development is to stop the wastage of time, fuel, manpower, causing illness to the public and pollution. Smart bin level monitoring system using WSNs, resolves the crucial problems in handling solid waste and helps to keep the environment clean. If the solid waste is planned to be collected once in a week, in case if the bins overflow, it spreads around the area, causing illness to the public and pollutes the environment.
If the solid waste is planned to be collected daily, in case if the bins are unfilled, then it is the wastage of time, fuel and manpower. The crucial problems in handling of solid wastes are given below: It is usually related to materials produced by human activity and the process is generally undertaken to reduce its effect on health and the environment. Waste management is one of the applications which involves, the process of collecting the waste, transport, processing or disposal, managing and monitoring the waste materials. Several monitoring systems have been developed by using WSN for various applications such as monitor and protect wild animals, behaviour detection of elderly people, combustible gas monitoring, online dynamic torque and efficiency monitoring in induction motors, road traffic monitoring, building monitoring and so on. WSN plays a vital role in the field of real time monitoring. Due to low cost, flexibility, high fidelity, self-organization, aggregated intelligence via parallel processing and rapid deployment, WSN is being applied in various fields, , which are shown in the Fig. Hence the low power consuming multi-hop communication is encouraged in WSN. Since large numbers of nodes are densely deployed, the neighbouring nodes will be very close to each other. Large numbers of smart sensors have been developed due to the deployment of WSN. The position of the nodes need not be pre-determined because they must possess the self-organizing capability. The nodes of a WSN consist of a radio transceiver, microcontroller and sensors. The basic block diagram of a WSN node is shown in the Fig. 
The nodes are smaller in size, compared to other nodes in conventional networks, which sense the real time events, process the sensed data, and transmit the data to its target. A WSN is composed of large number of sensor nodes.
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