IoT system for anytime/anywhere monitoring and control of vehicles' parameters

Afonso, José Augusto Bastos; Sousa, Ruben A.; Ferreira, Joao C Ferreira or Joao; Monteiro, Vítor; Pedrosa, Delfim

doi:10.1109/soli.2017.8120993

Cited by 12 publications

(3 citation statements)

References 13 publications

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“…Android application development is to facilitate users in monitoring and controlling greenhouses using this prototype [19]. By using Android, users can monitor and control greenhouses anywhere and anytime without having to be in the greenhouse [20][21][22][23][24]. This is because the Android application being developed will display data generated by sensors in greenhouses, such as sensors detecting ambient temperature around the greenhouse, sensors detecting temperature and humidity in hydroponic nutrient solutions, sensors detecting nutrients and particles in nutrient solutions, andacidity degree detection sensors.…”

Section: Figure 1 Block Diagrammentioning

confidence: 99%

IoT Model for Production House Control from the Development of Wetland Commodity Start-up

Heryani,

Ridha Yanti,

Irawansyah

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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A startup must have a realistic vision and a profitable business plan. It should be able to find customers willing to pay during the customer validation process. Products which customers are interested in must gain popularity consistently with repeatable and scalable startup business models. The aim of the research was to design an IoT model for production house control from the development of a Wetland Commodity Start-up. The business model was designed based on the concept of a Product-Service System (PSS) oriented towardscreating according to the wishes and needs of the users. The design thinking developed referredto 5 (five) stages of the process, namely Empathize, Define, Ideate, Prototype and Test. It was hoped the User would reach the stage of trying out the trial product after it had been made. Oneof the outputs was in the form of an IoT model implemented in an environmentally friendly wetland commodity production house. The advantages of this model were in terms of efficiency of electricity resources and smart monitoring based on mobile (Android & IoS). The power source was carried out in a hybrid manner, that is electricity from PLN and solar panels, so that it could detect quickly when a power outage occurred and then automatically switch according to the availability of electric power. Another advantage was smart monitoring. With this feature, the model was able to monitor and control nutrients so it was in sufficient ppm concentration according to the growth phase of the commodity.

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Section: Figure 1 Block Diagrammentioning

confidence: 99%

IoT Model for Production House Control from the Development of Wetland Commodity Start-up

Heryani,

Ridha Yanti,

Irawansyah

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…Srinivasan [22] in his research work improved the quality and safety of the vehicle by monitoring vehicle in real time, using Raspberry Pi and machine learning algorithms. Afosono et al [23] proposed a system which will allow us to monitor and control vehicles from anywhere anytime using IoT systems which uses Bluetooth, wireless sensor network, human machine interface, and online database firebase. Ali and Alwan [24] proposed a model for accident detection at high and low speed on the basis of G-force [25] measured using accelerometer and sending the message to the local authority.…”

Section: Related Workmentioning

confidence: 99%

Vehicular impact analysis of driving for accidents using on board diagnostic II

Singh

2022

Bulletin EEI

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A large number of people meet with an accident everyday around the world. One of the leading causes of death is traffic accidents. The reasons behind India's rising number of road accidents contribute to bad driving behavior, poor road design and infrastructure, lack of enforcement of traffic laws. The post accidental investigation report is very important to know the actual reason of collision for the concerned parties and the insurance company and the police. The proposed work effectively extracts interpretable features describing complex driving patterns. It will provide analytical report of the accidents to various parties involved in process. This work analyzes the type and cause of accident. The experiment has been simulated using on board diagnostic II (OBD II) and smart phone accelerometer for post accidental analysis of collision. As the electronic control unit (ECU) does not provide accelerometer sensor, so the smart phone accelerometer has been utilized in conjunction with another parameter of OBD II device. The gravitational force (G-force) values observed from accelerometer sensor along the different axes and speed, acceleration, fuel consumption rate, and are retrieved from OBD II device. The result shows that the parameters recorded are very helpful in finding the actual accidental status of the vehicle.

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“…In 1999, Kevin Ashton claims that the idea of the "Internet of Things" (IoT) was launched by enabling connectivity among various things at any time and location via the Internet [1]. A wireless sensor network (WSN) comprises a set of smart sensor devices and a gateway or base station (BS) device that can communicate with each other using radio channels.…”

Section: Introductionmentioning

confidence: 99%

Energy-Efficient Distributed Cluster-Tree Based Routing Protocol for Applications IoT-Based WSN

Tân¹,

Hoang²

2022

Proceedings of the Seventh International Conference on Research in Intelligent and Computing in Engineering

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4With the growth of wireless sensor network (WSN) technologies, the applications of IoT-based WSNs allow the interconnection of smart objects or sensors through the Internet. However, energy constraint is a major obstacle in WSN, which directly affects the lifespan of the network. Hence, many researchers have focused on how to program routing protocols to maximize energy conservation in WSNs. The clustering mechanism is demonstrated that separating the network into clusters may significantly decrease energy consumption. In this paper, we propose distributed tree-based clustering routing protocol for IoT applications (EE-DTC). In order to enhance efficient energy, EE-DTC chooses cluster head nodes based on the remaining energy, the location, and the density of nodes. In addition, to lengthen the network lifespan, we create multi-hop routes with short communication links intra-clusters by building the minimum spanning tree (MST) using the Kruskal algorithm. Our experiment results exhibit that the performance of EE-DTC overcomes the TBC and LEACH-VA protocols in terms of increasing network lifespan, reducing energy consumption, and improving efficient energy. Index Terms4Wireless sensor networks, routing protocol, energy-efficient, IoT, tree-based clustering.

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IoT system for anytime/anywhere monitoring and control of vehicles' parameters

Cited by 12 publications

References 13 publications

IoT Model for Production House Control from the Development of Wetland Commodity Start-up

IoT Model for Production House Control from the Development of Wetland Commodity Start-up

Vehicular impact analysis of driving for accidents using on board diagnostic II

Energy-Efficient Distributed Cluster-Tree Based Routing Protocol for Applications IoT-Based WSN

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