Business Requirements of Collin’s Car Parking System
Question:
Discuss about the Object and Data Modelling Networks.
The existing car parking models could not cope up with the rising number of vehicles operating in the streets of the cities. Collin’s car parking model tends to bring innovation in the business. Considering the business information of the Collin’s car parking system, it can be observed that the business requirements includes customer registration in the Collin’s car park, ticket booking system, installation of the ticket generation system, set up for automatic security monitoring, plots for setting up the car parking, efficient architecture of the car park so that more number of vehicles could be accommodated in shorter space and installation of an automatic ticket checking system (Moon & Ha, 2013). Other business requirements involve installation of automatic customer feedback system and marketing its business model.
Collin’s car parking aspires to present a car parking based model that would be instrumental in handling the day to day traffic of the cities. Currently, Collin’s car parking possesses twenty operating centers across the city of Melbourne. Collin’s car parking system provides simpler mode of operation to their customers such as simpler ticket booking, easy access and exit to the car park are some of the attractions that it provides for its customers.
In case the Collins’ extend their services to online applications which would allow users to avail the Collin’s car parking services online such as checking availability of spaces, choosing the spaces, online ticket booking as well as ticket generation can lead to gaining of more number of customers. This would make the Collins’ mode of service much simpler compared to that of the other existing car parking models present in the market (Gruyer et al., 2104). Considering the present scenario of the cities were more than 90% of the human population prefer to travel by their private vehicles a modernized car parking models as that of Collins’ is the need of the hour. Installation of such digitalized system in the car parking spaces can reduce the chaos providing the city dwellers with healthy travelling experience (Yakut et al., 2013). It can be said that the system proposed by Collin’s car park is much advanced compared to the other products prevailing in the market thus increasing its chance of market profits.
- Expanding to different regions.
- Increasing the customer base.
- Gaining customer satisfaction.
- Achieving a yearly turnover of $1million.
- Complete digitalization of the car parking system.
Considering the present development scenario of the car parking models where users have to struggle to find a space to park their vehicles, it can said that the much upgraded model is the need of an hour. A typical car parking system that a customer would wish for will involve simpler availing of the services, cost efficient, less time consuming and round the clock service (Mingardo, van Wee & Rye, 2015). Apart from this, automatic car parking system with much upgraded security measures are also included in the list of major market requirements.
The Collin’s car park system is also exposed to number of business risks. The following points highlight some of the major business risks that the Collins’ might face:
- Natural calamities that might destruct the car parking plots.
- Credentials of number of customers will be at stake if the software gets hacked.
- Failure of the installed system.
- In case the Collins’ could not cope up with the customer demands, this might create a negative impression in front of their customers.
- Less number of land contracts.
- Unavailability of spaces to set up the car parking system.
- Decline in the world economy, which in turn will reduce number of vehicles in the roads (Farren, Milou & Volakos, 2015).
Benefits of Collin’s Car Parking System
In the long run the company aims to offer a completely digitalized car parking system offering much simpler mode of operation. Installation of the automatic security system is also in the list of the Collins’ vision (Polycarpou, Lambrinos & Protopapadakis, 2013). The Collins’ aspires to gain customer satisfaction by providing such innovative mode of services and after gaining customers the Collins’ aims to extend its business to other regions, in the process offering smart city solution across the globe.
Collin’s aspires to expand its business worldwide offering much simpler mode of services and increasing its customer base. It aims to develop software that would enable the customers to avail services online with the help of internet connection.
The features of the Collin’s car parking model are as follows:
- Online services which enables the customer to check availability of car parking spaces online. Collins’ provide their fixed customers with fixed places which means fixed customers can always avail the service.
- Minimal parking costs.
- Stringent security measures- The Collins’ keeps a regular check on the number and the duration of the security visits in the car park (Nagakalyan & Raghukumar, 2014).
- Incorporation of digitalized system (Hans, Sethi, & Kinra, 2015).
- Hassle free ticket generation and ticket checking technique which requires the ordinary customers to press the button on the control pillar for generating the ticket and the fixed customer is required to insert their tickets in the slot installed in the control pillar.
- Collins’ provide easy exit to their customer the fixed customers are not required to pay every time when they leave the car park only they have to insert their ticket in the required slot.
Scope – The Collin’s car parking business have huge scope to expand their business. Offering a totally digitalized car parking system would help them to earn more profits considering the market demands. Keeping in mind the present market standards if the Collins’ could come up with simpler plan their normal customers, this can help them in gaining the attention of their normal customers as well (Bonde et al., 2014).
Limitations – The Collins’ have no provision for public transport system also it may resist the customers to pay the same amount for two wheeler vehicles as the parking fee structure of the Collins’ is based on time of parking rather than the space occupied.
The main stakeholders of the Collin’s car parking are:
- Employees – This includes all the people who are involved in the office works of the business such as the engineers, security guards, management team.
- Customers – This includes both their regular as well as normal customers.
- Tourists – This includes the tourist who rent cars to travel the city.
- Land contractors – This involves the one involved in providing land contract for the car park.
- Architects – The one that will plan the design of the car park.
- Suppliers – They provides the Collin’s with the required raw materials.
The major resources considered for the Collin’s business are:
- Business development team.
- Required infrastructure
- Raw materials
- Design plan for the car park
- Management and administrative team.
- Software maintenance team
Unpredictable weather changes, unavailability of the land spaces can pose a major threat to the Collin’s car parking business. A loophole in the security management can incur huge loss to the business (Gu et al., 2013). Other issue such as high land prices, system failure and software issues can also be considered as some of their business risks.
References
Bonde, D. J., Shende, R. S., Kedari, A. S., Gaikwad, K. S., & Bhokre, A. U. (2014, January). Automated car parking system commanded by Android application. In Computer Communication and Informatics (ICCCI), 2014 International Conference on (pp. 1-4). IEEE.
Farren, N., Milou, C., & Volakos, P. (2015). The evolution of car parking: technology creating risk and opportunity.
Gruyer, D., Choi, S., Boussard, C., & d’Andrea-Novel, B. (2014, June). From virtual to reality, how to prototype, test and evaluate new ADAS: Application to automatic car parking. In Intelligent Vehicles Symposium Proceedings, 2014 IEEE (pp. 261-267). IEEE.
Gu, L., Zeng, D., Guo, S., & Ye, B. (2013, April). Leverage parking cars in a two-tier data center. In Wireless Communications and Networking Conference (WCNC), 2013 IEEE (pp. 4665-4670). IEEE.
Hans, V., Sethi, P. S., & Kinra, J. (2015, October). An approach to IoT based car parking and reservation system on Cloud. In Green Computing and Internet of Things (ICGCIoT), 2015 International Conference on (pp. 352-354). IEEE.
Mingardo, G., van Wee, B., & Rye, T. (2015). Urban parking policy in Europe: A conceptualization of past and possible future trends. Transportation Research Part A: Policy and Practice, 74, 268-281.
Moon, J. H., & Ha, T. K. (2013). A car parking monitoring system using wireless sensor networks. International Journal of Electrical, Robotics, Electronics and Communications Engineering, 7(10), 830-833.
Nagakalyan, S., & Raghukumar, B. (2014). Fabrication of car parking prototype using piezoelectric sensors. International Journal of Mechanical and Mechatronics Engineering, 14(4), 26-30.
Polycarpou, E., Lambrinos, L., & Protopapadakis, E. (2013, June). Smart parking solutions for urban areas. In World of Wireless, Mobile and Multimedia Networks (WoWMoM), 2013 IEEE 14th International Symposium and Workshops on a (pp. 1-6). IEEE.
Yakut, O., Eren, H., Kaya, M., Oksuztepe, E., Polat, M., Omac, Z., … & Celenk, M. (2013, December). Dynamic risk modeling for safe car parking in climbing over urban curbs. In Connected Vehicles and Expo (ICCVE), 2013 International Conference on (pp. 465-470). IEEE.
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