Intelligent smart parking algorithm

Kanteti, Dharmini; Srikar, D.; Ramesh, T. K.

doi:10.1109/smarttechcon.2017.8358524

Cited by 38 publications

(15 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The driver able to know the blocks it belongs to and to classify the vehicles around it into three types at the same time [23]. Arduino UNO store the data and sent data to MCU node then the data direct to database [24]. Figure 4 illustrates the process in detail.…”

Section: Designing the Smart Car Parkmentioning

confidence: 99%

Prototype development of smart parking system powered by solar photovoltaic

Nasir

Salimin

Chan

et al. 2020

IJEECS

View full text Add to dashboard Cite

<span>This paper proposed the prototype of smart car parking powered by photovoltaic. There is probability that cars will hit the wall or car out from the parking lot. The main objectives of this research are to determine the power rating and sizing of PV panel suitable for smart car parking system and design an ultrasonic parking sensor circuit to alert any obstacle while parking and development the prototype of smart car parking using PV. Smart car parking consists of distance sensors, LED, Arduino UNO potentiometer, resistors, and Node MCU. Where, Arduino UNO as a microcontroller was coding to receive the signal from the sensor and transmit signal to LED to display the car distance condition. To measure the distance between sensor positions to a car, HC-SR04 ultrasonic distance sensor is used. Whenever a car come near to the sensor within range specified, the red, yellow or green LED will light up and send the condition happening to the smartphone application. The application build-up can display the real situation and the PV system can supply enough electricity to the smart car parking. </span>

show abstract

Section: Designing the Smart Car Parkmentioning

confidence: 99%

Prototype development of smart parking system powered by solar photovoltaic

Nasir

Salimin

Chan

et al. 2020

IJEECS

View full text Add to dashboard Cite

show abstract

“…Researchers have resorted to combining several algorithms to match the inherent difficulty of the problem. For example, Kantenti et al [20] combined sensor technology with the Internet of Things. The barricade to the parking area is sensor enabled, so as to capture the details of the car including number plate and keep track of the vehicles, as well as both allocated and unallocated parking spaces.…”

Section: Hybrid Metaheuristicsmentioning

confidence: 99%

Dynamic Street Parking Space Using Memetic Algorithm for Optimization

Akandwanaho¹,

Govender²

2020

Smart Urban Development

View full text Add to dashboard Cite

In recent years, there have been an increasing number of automobiles in cities around the world. This is due to more people living and working in cities as a result of urbanization. Street parking remains a common option for motorists, due to it being cheap and convenient. However, this option leads to a high concentration of vehicles causing congestion and obstruction of traffic. This problem is compounded as motorists wait for others to pull out of parking bays or look for empty parking spaces. In order to provide relief to this problem, an intelligent approach is proposed that generates an optimal parking space based on the vehicle location and desired destination. The proposed approach applies its operators adaptively and it derives optimality from the synergy between genetic algorithm and a local search technique in the search optimization process. The proposed method exhibits superior performance when compared with the existing methods over multiple iterations.

show abstract

“…Additionally, an ESP8266 module was used to allow Wi-Fi communications by Arduino boards, enabling them to send information to an external system to inform users about the current parking system state. Differently, in [41] authors combined Arduino and Raspberry Pi platforms to support efficient parking, leaving the most computation burden to the Raspberry Pi board. As an interesting service, the work in [41] also employed CMOS sensors to detect the cars plates.…”

Section: Parking Systemmentioning

confidence: 99%

“…Differently, in [41] authors combined Arduino and Raspberry Pi platforms to support efficient parking, leaving the most computation burden to the Raspberry Pi board. As an interesting service, the work in [41] also employed CMOS sensors to detect the cars plates.…”

Section: Parking Systemmentioning

confidence: 99%

Open-Source Electronics Platforms as Enabling Technologies for Smart Cities: Recent Developments and Perspectives

Costa

Durán-Faúndez

2018

Electronics

View full text Add to dashboard Cite

With the increasing availability of affordable open-source embedded hardware platforms, the development of low-cost programmable devices for uncountable tasks has accelerated in recent years. In this sense, the large development community that is being created around popular platforms is also contributing to the construction of Internet of Things applications, which can ultimately support the maturation of the smart-cities era. Popular platforms such as Raspberry Pi, BeagleBoard and Arduino come as single-board open-source platforms that have enough computational power for different types of smart-city applications, while keeping affordable prices and encompassing many programming libraries and useful hardware extensions. As a result, smart-city solutions based on such platforms are becoming common and the surveying of recent research in this area can support a better understanding of this scenario, as presented in this article. Moreover, discussions about the continuous developments in these platforms can also indicate promising perspectives when using these boards as key elements to build smart cities.

show abstract

Intelligent smart parking algorithm

Cited by 38 publications

References 6 publications

Prototype development of smart parking system powered by solar photovoltaic

Prototype development of smart parking system powered by solar photovoltaic

Dynamic Street Parking Space Using Memetic Algorithm for Optimization

Open-Source Electronics Platforms as Enabling Technologies for Smart Cities: Recent Developments and Perspectives

Contact Info

Product

Resources

About