Friday, September 20, 2019
Logical Database Design for HR management System
Logical Database Design for HR management System Task 1.1 The background information of the organization and operation that would support. In an organization a HR department is responsible for record each employee. Where the employees have an identification number, job identification code, e-mail address, manager as well as salary. They also track those employees earn incentive or commissions in addition to their salary. However, the company also tracks their role in the organization. Each job also recorded according to the characteristics. Moreover, ever jobs have job title, identification code, maximum and minimum salary of the job. There are few employees work for a long time with the company and they have held different department within the company. If any employee resigns, then the job identification number and department are recorded. The company also track the location of its departments and warehouses. Every employee must assign with a department where departments are identified by the unique identification number. Those departments are associated with different locations. The company need to store the location such as the state, city, postal code, street name as well as county code. The company also record the county name, currency name and the region. This database supports a better employee management plan as well as their departments, location and associated jobs. However, the company would have a better structure to store their confidential information. This database will provide a better extracted information to developed their insufficiency. This efficient data structure allows them increases their storage as well as it exclude the redundancy in data. Task 1.2 a conceptual database design and list of enterprise rules Figure 1: EER-diagram showing all enterprise rules (Source: Created by author) Task2.1: A Logical Database Design for HR management System Figure 2: logical database design (Source: Created by author) Task2.2: Create the tables using Oracle DBMS - Table structure for COUNTRIES - DROP TABLE MYDB.COUNTRIES; CREATE TABLE MYDB.COUNTRIES ( country_id VARCHAR2(30 BYTE) NOT NULL , country_name VARCHAR2(30 BYTE) NULL , region_id VARCHAR2(30 BYTE) NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for DEPARTMENTS - DROP TABLE MYDB.DEPARTMENTS; CREATE TABLE MYDB.DEPARTMENTS ( department_id VARCHAR2(30 BYTE) NOT NULL , department_name VARCHAR2(30 BYTE) NULL , manager_id VARCHAR2(30 BYTE) NULL , location_id VARCHAR2(30 BYTE) NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for EMPLOYEES - DROP TABLE MYDB.EMPLOYEES; CREATE TABLE MYDB.EMPLOYEES ( employee_id VARCHAR2(30 BYTE) NOT NULL , first_name VARCHAR2(30 BYTE) NULL , last_name VARCHAR2(30 BYTE) NULL , email VARCHAR2(30 BYTE) NULL , phone_number NUMBER(12) NULL , hire_date DATE NULL , job_id VARCHAR2(30 BYTE) NULL , salary NUMBER(10,2) NULL , commission NUMBER(10,2) NULL , manager_id VARCHAR2(30 BYTE) NULL , department_id VARCHAR2(30 BYTE) NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for JOB_HISTORY - DROP TABLE MYDB.JOB_HISTORY; CREATE TABLE MYDB.JOB_HISTORY ( employee_id VARCHAR2(30 BYTE) NOT NULL , start_date DATE NULL , end_date DATE NULL , job_id VARCHAR2(30 BYTE) NULL , department_id VARCHAR2(30 BYTE) NOT NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for JOBS - DROP TABLE MYDB.JOBS; CREATE TABLE MYDB.JOBS ( job_id VARCHAR2(30 BYTE) NOT NULL , job_title VARCHAR2(30 BYTE) NULL , min_salary NUMBER(10,2) NULL , max_salary NUMBER(10,2) NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for LOCATIONS - DROP TABLE MYDB.LOCATIONS; CREATE TABLE MYDB.LOCATIONS ( location_id VARCHAR2(30 BYTE) NOT NULL , street_address VARCHAR2(30 BYTE) NULL , postal_code NUMBER(10) NULL , city VARCHAR2(30 BYTE) NULL , state VARCHAR2(30 BYTE) NULL , country_id VARCHAR2(30 BYTE) NULL ) LOGGING NOCOMPRESS NOCACHE ; - Table structure for REGIONS - DROP TABLE MYDB.REGIONS; CREATE TABLE MYDB.REGIONS ( region_id VARCHAR2(30 BYTE) NOT NULL , region_name VARCHAR2(30 BYTE) NULL ) LOGGING NOCOMPRESS NOCACHE ; Task2.3: Create the four most useful indexes - Indexes structure for table COUNTRIES - - Checks structure for table COUNTRIES - ALTER TABLE MYDB.COUNTRIES ADD CHECK (country_id IS NOT NULL); - Primary Key structure for table COUNTRIES - ALTER TABLE MYDB.COUNTRIES ADD PRIMARY KEY (country_id); - Indexes structure for table DEPARTMENTS - - Checks structure for table DEPARTMENTS - ALTER TABLE MYDB.DEPARTMENTS ADD CHECK (department_id IS NOT NULL); - Primary Key structure for table DEPARTMENTS - ALTER TABLE MYDB.DEPARTMENTS ADD PRIMARY KEY (department_id); - Indexes structure for table EMPLOYEES - - Checks structure for table EMPLOYEES - ALTER TABLE MYDB.EMPLOYEES ADD CHECK (employee_id IS NOT NULL); - Primary Key structure for table EMPLOYEES - ALTER TABLE MYDB.EMPLOYEES ADD PRIMARY KEY (employee_id); - Indexes structure for table JOB_HISTORY - - Checks structure for table JOB_HISTORY - ALTER TABLE MYDB.JOB_HISTORY ADD CHECK (employee_id IS NOT NULL); ALTER TABLE MYDB.JOB_HISTORY ADD CHECK (department_id IS NOT NULL); - Primary Key structure for table JOB_HISTORY - ALTER TABLE MYDB.JOB_HISTORY ADD PRIMARY KEY (employee_id); - Indexes structure for table JOBS - - Checks structure for table JOBS - ALTER TABLE MYDB.JOBS ADD CHECK (job_id IS NOT NULL); - Primary Key structure for table JOBS - ALTER TABLE MYDB.JOBS ADD PRIMARY KEY (job_id); - Indexes structure for table LOCATIONS - - Checks structure for table LOCATIONS - ALTER TABLE MYDB.LOCATIONS ADD CHECK (location_id IS NOT NULL); - Primary Key structure for table LOCATIONS - ALTER TABLE MYDB.LOCATIONS ADD PRIMARY KEY (location_id); - Indexes structure for table REGIONS - - Checks structure for table REGIONS - ALTER TABLE MYDB.REGIONS ADD CHECK (region_id IS NOT NULL); - Primary Key structure for table REGIONS - ALTER TABLE MYDB.REGIONS ADD PRIMARY KEY (region_id); - Foreign Key structure for table MYDB.COUNTRIES - ALTER TABLE MYDB.COUNTRIES ADD FOREIGN KEY (region_id) REFERENCES MYDB.REGIONS (region_id) ON DELETE CASCADE; - Foreign Key structure for table MYDB.DEPARTMENTS - ALTER TABLE MYDB.DEPARTMENTS ADD FOREIGN KEY (location_id) REFERENCES MYDB.LOCATIONS (location_id) ON DELETE CASCADE; - Foreign Key structure for table MYDB.EMPLOYEES - ALTER TABLE MYDB.EMPLOYEES ADD FOREIGN KEY (job_id) REFERENCES MYDB.JOBS (job_id) ON DELETE CASCADE; ALTER TABLE MYDB.EMPLOYEES ADD FOREIGN KEY (department_id) REFERENCES MYDB.DEPARTMENTS (department_id) ON DELETE CASCADE; - Foreign Key structure for table MYDB.JOB_HISTORY - ALTER TABLE MYDB.JOB_HISTORY ADD FOREIGN KEY (employee_id) REFERENCES MYDB.EMPLOYEES (employee_id) ON DELETE CASCADE; - Foreign Key structure for table MYDB.LOCATIONS - ALTER TABLE MYDB.LOCATIONS ADD FOREIGN KEY (country_id) REFERENCES MYDB.COUNTRIES (country_id) ON DELETE CASCADE; Task2.4: Data Population The below figures showing all data in each table: Table countries: Table departments: Table employees: Table job_history: Table jobs: Table locations: Table regions: Task2.5: SQL Query writing Query 1 SELECT MYDB.COUNTRIES.country_name FROM MYDB.COUNTRIES Query 2 SELECT MYDB.REGIONS.region_name, MYDB.COUNTRIES.country_name FROM MYDB.COUNTRIES INNER JOIN MYDB.REGIONS ON MYDB.COUNTRIES.region_id = MYDB.REGIONS.region_id Query 3 SELECT MYDB.JOB_HISTORY.start_date, MYDB.JOB_HISTORY.end_date, MYDB.EMPLOYEES.first_name, MYDB.EMPLOYEES.last_name, MYDB.EMPLOYEES.email FROM MYDB.EMPLOYEES FULL OUTER JOIN MYDB.JOB_HISTORY ON MYDB.JOB_HISTORY.employee_id = MYDB.EMPLOYEES.employee_id Query 4 SELECT Count(MYDB.EMPLOYEES.employee_id) AS Number Of Employee FROM MYDB.EMPLOYEES Query 5 SELECT MYDB.EMPLOYEES.first_name, MYDB.EMPLOYEES.last_name, MYDB.EMPLOYEES.email, MYDB.EMPLOYEES.phone_number, MYDB.EMPLOYEES.hire_date, MYDB.EMPLOYEES.salary, MYDB.EMPLOYEES.commission FROM MYDB.EMPLOYEES ORDER BY MYDB.EMPLOYEES.first_name ASC Query 6 SELECT MYDB.EMPLOYEES.first_name, MYDB.EMPLOYEES.last_name, MYDB.EMPLOYEES.email, MYDB.EMPLOYEES.phone_number, MYDB.EMPLOYEES.hire_date, MYDB.EMPLOYEES.salary, MYDB.EMPLOYEES.commission FROM MYDB.EMPLOYEES WHERE MYDB.EMPLOYEES.email LIKE %gmail% Query 7 SELECT MYDB.EMPLOYEES.first_name, MYDB.EMPLOYEES.last_name, MYDB.EMPLOYEES.email, MYDB.EMPLOYEES.phone_number FROM MYDB.EMPLOYEES INNER JOIN MYDB.JOB_HISTORY ON MYDB.JOB_HISTORY.employee_id = MYDB.EMPLOYEES.employee_id WHERE MYDB.JOB_HISTORY.employee_id IN (MYDB.EMPLOYEES.employee_id) Query 8 MYDB.EMPLOYEES.email, MYDB.EMPLOYEES.phone_number, MYDB.EMPLOYEES.hire_date, MYDB.EMPLOYEES.job_id, MYDB.EMPLOYEES.salary, MYDB.EMPLOYEES.commission, MYDB.EMPLOYEES.manager_id, MYDB.EMPLOYEES.department_id, MYDB.EMPLOYEES.employee_id FROM MYDB.EMPLOYEES, (SELECT MYDB.JOB_HISTORY.employee_id fromÃâà MYDB.JOB_HISTORY) subquery1 WHERE subquery1.employee_id=MYDB.EMPLOYEES.employee_id Asabe, S.A., Oye, N.D. and Goji, M., 2013. 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