Effective IOT Solutions For Smart Vehicle Parking At Sippy Downs Campus Of The University Of The Sunshine Coast, An Essay.

As stated by the qian, & wang, (2012), Internet of things plays the significant role in connecting surrounding environment to the internet and made effortlessness to access the un-internet things from any locations. It’s inevitable for the person to update with the innovation technology. At present, mainly the people are suffering issues on parking on parking cars slots in city. Traffic congestion caused by car is an alarming issue in Australia and it is increasing exponentially in upcoming years. Smart vehicle parking is the nice field in which several organizations are now investing high and the vehicle parking organization has remarkable potential since the car parking problems in increasing both developed and developing nations.

In this report I am going to proposed two effective IOT technology solutions of car parking system that helps to person to park their car free at the Sippy Downs Campus of the University of the Sunshine Coast. The report also emphasized upon the     comparison or contrast between the solutions and based on the findings proposed an effective conclusion and recommendation.        

The smart vehicle parking system is an innovative ideas and system architecture that assist free parking experience to the person at Sippy Downs Campus of the University. The solutions is made by creating several network smart parking cluster such as Wireless parking occupancy sensor as well as getaway. The infrastrure also includes the centralized cloud server that helps the person to provide information regarding the free space available at short time of period. In this architecture client mainly uses its own mobile application system and gather the information regarding the free space parking allocation near its locations. In this solution, Spark-pos system is used that helps with reliable detection system that offers the easiest way to determine the car occupancy in the parking slot (zhang & zhu, 2011). The devices mainly functions in 865 to 867 MHz that is available in FSK.  

In this solution wireless local area network is implemented that offers connectivity within a limited geographical area in effective and successful manner. One of the vital features associated with this technology is the mobility and the main benefits associated with this technology are easily accessibility and more secured. The main benefits of the implementation of the WIFI technology are that it supports huge number of nodes across several nodes (Zhang& Zhu, 2011). It implements the WEP as well as WPA that offers high security to device and protects the network from unauthorized users in successful manner. Other benefits of the incorporation of this technology is that it has become omnipresent standard of connectivity as well as used from different places such as schools, university, enterprises, airports and so on. With SDN, WIFI technology enables unified policy management as internet of things device in which traffic can be secured and scanned at the network at entry point. In terms of battery consumption it uses the less power that increases the long battery life. Mainly WLAN technology has effective features to decreases the power consumption (Ashton, 2009).  Use of the cloud computing solutions assists the users to offers real time information in successful manner. 

Solution 2

The second solution mainly based on the LoRaWAN technology that is based on the  low power wireless network as well as the protocol developed for less cots secure two way communication procedures in internet of things. LoRa network mainly consists with the four components such as Netserver, EndPoints, remote computer and LoRa gateway.  Network security is the vital aspect of any network and LoRa technology uses several types of the encryption techniques (Jia et al., 2012). The technology uses the unique application key such as EU164 that helps them to handle the end to end security in most vital and successful manner. Moreover the network also uses the AES CCM that consists of 128 bit for authentication and encryption techniques.    

The main purpose of the implementation of these techniques is that it helps client to interact with the server in vital and successful manner. LoRa technology is effectible to interact with the server with the help of the getaway system. The device data is mainly be from of item identification node, sensor node and Car node.  In addition to this the solutions also implements the WIFI technology that efffecvely helps the vehicle driver to search the free parking place most effective and successful manner (Yan et al., 2008).  The proposed article is mainly implemented the LoRa technology features that would effectively helps the organization to analyze and evaluate the available data and information in correct manner and provides the best or optimum path to find the parking slot. The proposed article also implements the collaborative path planning algorithm that would help the organization to plan the parking path towards vacant parking space in successful manner.   Implementation of such algorithm effectively helps the organization   to find space to make decision that best and most effective balance road determine and also reduce congestion (Bankov, Khorov & Lyakhov, 2016). To enable the vision in effective manner throughout evaluation of the parking activity car mounted or argument device that helps the organization to communicate interface to interact with the parking infrastrure and cloud services.  

To solve the problems in most effective manner two solutions have been proposed. The first solutions in mainly emphasized on the Spark-pos system, cloud based database management system,   SDN; WIFI technology enables unified policy management that would helps the organization to provide better solutions and helps to determine the parking slots in successful manner. The main benefits of the incorporation of such type of techniques in this solution are that it helps to transfer the data and information in fast manner (Park et al., 2017).  Incorporation of the Wireless Local Area Network helps to tarsier the data about 1mbps to 54 mbps that helps them to send information in fast manner. Implementation of the cloud computing technology helps the organization to access the real data and also helps them to store huge amount of the data. In the second solutions,  LoRa technology has been implemented that helps the organization to provide better security as well as helps them to consume less power. Use of this technology in terms of the first solutions helps the organization to offers data accessibly in fast manner (Bankov, Khorov & Lyakhov, 2016). Apart from that LoRa technology implements AES CCM that consists of 128 bit for authentication and encryption techniques that would helps to secure the users information in more successful manner. Therefore, as per the comparison in terms of security, power consumption, data ownership it has been suggested that the organization needs to incorporate solution 2 because they offers better feature compared to solution one.                               

Conclusion and recommendation

As per the findings and evaluation it has been concluded that technology plays the significant role in upcoming years and not only helps the business but also helps the society to ease their work. The findings indicates that there are different technologies in IOT are available and from the findings it has been seen that LoRa technology plays the vital role and achieve high storage. The proposed solution in this paper reveals a research agenda that objective at offering the parking slots to customers in better manner (Ashton, 2009). The solution that has been proposed uses the better route algorithm that helps the driver to search route in short time period. Moreover the system also helps the driver to provide the real time information about the parking slots near university campus. In this paper, it has been suggested that an effective’s security system helps the organization to offers better services and satisfaction at users end. Moreover   the organization also needs to incorporate better software such as JAVA and HTML5 that helps them to facilities better human interaction with the devices.  

References

QIAN, Z. H., & WANG, Y. J. (2012). IoT technology and application [J]. Acta Electronica Sinica, 5, 026.

ZHANG, H. D., & ZHU, L. (2011). RFID Technology and Structure of Internet of Things [J]. Computer Technology and Development, 5, 016.

Zhang, H., & Zhu, L. (2011, June). Internet of Things: Key technology, architecture and challenging problems. In Computer Science and Automation Engineering (CSAE), 2011 IEEE International Conference on (Vol. 4, pp. 507-512). IEEE.

Ashton, K. (2009). That ‘internet of things’ thing. RFiD Journal, 22(7), 97-114.

Jia, X., Feng, Q., Fan, T., & Lei, Q. (2012, April). RFID technology and its applications in Internet of Things (IoT). In Consumer Electronics, Communications and Networks (CECNet), 2012 2nd International Conference on (pp. 1282-1285). IEEE.

Yan, L., Zhang, Y., Yang, L. T., & Ning, H. (Eds.). (2008). The Internet of things: from RFID to the next-generation pervasive networked systems. CRC Press.

Bankov, D., Khorov, E., & Lyakhov, A. (2016, November). On the Limits of LoRaWAN Channel Access. In Engineering and Telecommunication (EnT), 2016 International Conference on (pp. 10-14). IEEE.

Park, S. K., Hwang, K. I., Kim, H. S., & Shim, B. S. (2017). Challenges and Experiment with LoRaWAN. In Advanced Multimedia and Ubiquitous Engineering (pp. 269-276). Springer, Singapore.