Apply the Java concepts that you learned (OOP, polymorphism, interfaces, packaging, ...) as well as SOLID design principles to design/extend a Parking Garage application and implement it to class diagram for the system and sequence diagram for the system . This application manages a parking space for a configurable maximum number of vehicles. The designed application must handle the following functions: ● Each garage slot has a width and depth that describes the slot dimensions. ● The garage consists of a configurable maximum number of slots with different dimensions. ● Each vehicle shall be identified by a model name, unique identification number, Model year and vehicle dimensions (width and length). ● Park-in function that marks the arrival time of a vehicle if there is an available slot that matches vehicle dimensions. ● The slot selection for vehicle park-in could be done using multiple algorithms: ○ First Fit selection where the first slot with big enough dimension to host the vehicle will be selected ○ Best Fit selection where the slot with the best dimension match should be used where the wasting area of the slot is minimized. ● Slot selection algorithms could be extended in the future version of the application. ● Park-out function that marks the departure time of a vehicle ● Calculate the parking fees during the park-out based on the time-of-stay with an hourly rate that depends on the slot dimensions i.e slot with width = 120cm and depth = 200cm could cost 10 EGP per hour. These costs should be configured during the slots configuration during application startup ● Calculate the total income as well as the total number of vehicles that used the parking garage at any given point in time. ● Display the available parking slots for specific vehicle dimensions. ● Enrich your application with the capability to handle a set of exceptions that can happen during user interaction and through any other calculations. The displayed error message for exceptional behavior should be descriptive.
Apply the Java concepts that you learned (OOP, polymorphism, interfaces, packaging, ...) as well as SOLID design principles to design/extend a Parking Garage application and implement it to class diagram for the system and sequence diagram for the system . This application manages a parking space for a configurable maximum number of vehicles. The designed application must handle the following functions: ● Each garage slot has a width and depth that describes the slot dimensions. ● The garage consists of a configurable maximum number of slots with different dimensions. ● Each vehicle shall be identified by a model name, unique identification number, Model year and vehicle dimensions (width and length). ● Park-in function that marks the arrival time of a vehicle if there is an available slot that matches vehicle dimensions. ● The slot selection for vehicle park-in could be done using multiple algorithms: ○ First Fit selection where the first slot with big enough dimension to host the vehicle will be selected ○ Best Fit selection where the slot with the best dimension match should be used where the wasting area of the slot is minimized. ● Slot selection algorithms could be extended in the future version of the application. ● Park-out function that marks the departure time of a vehicle ● Calculate the parking fees during the park-out based on the time-of-stay with an hourly rate that depends on the slot dimensions i.e slot with width = 120cm and depth = 200cm could cost 10 EGP per hour. These costs should be configured during the slots configuration during application startup ● Calculate the total income as well as the total number of vehicles that used the parking garage at any given point in time. ● Display the available parking slots for specific vehicle dimensions. ● Enrich your application with the capability to handle a set of exceptions that can happen during user interaction and through any other calculations. The displayed error message for exceptional behavior should be descriptive.
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Apply the Java concepts that you learned (OOP, polymorphism, interfaces, packaging, ...) as well as SOLID design principles to design/extend a Parking Garage application and implement it to class diagram for the system and sequence diagram for the system . This application manages a parking space for a configurable maximum number of vehicles. The designed application must handle the following functions:
● Each garage slot has a width and depth that describes the slot dimensions.
● The garage consists of a configurable maximum number of slots with different dimensions.
● Each vehicle shall be identified by a model name, unique identification number, Model year and
vehicle dimensions (width and length).
● Park-in function that marks the arrival time of a vehicle if there is an available slot that matches
vehicle dimensions.
● The slot selection for vehicle park-in could be done using multiple algorithms:
○ First Fit selection where the first slot with big enough dimension to host the vehicle will be selected
○ Best Fit selection where the slot with the best dimension match should be used where the wasting area of the slot is minimized.
● Slot selection algorithms could be extended in the future version of the application.
● Park-out function that marks the departure time of a vehicle
● Calculate the parking fees during the park-out based on the time-of-stay with an hourly rate that
depends on the slot dimensions i.e slot with width = 120cm and depth = 200cm could cost 10 EGP per hour. These costs should be configured during the slots configuration during application startup
● Calculate the total income as well as the total number of vehicles that used the parking garage at any given point in time.
● Display the available parking slots for specific vehicle dimensions.
● Enrich your application with the capability to handle a set of exceptions that can happen during
user interaction and through any other calculations. The displayed error message for exceptional behavior should be descriptive.
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