Unit 41 Database Management Systems Assignment Brief 2026
| Qualification | Pearson BTEC Levels 4 and 5 Higher Nationals in Computing |
| Unit Number | 41 |
| Unit Title | Database Management Systems |
| Unit code | H/618/7472 |
| Unit type | Unit level 5 |
| Unit level | 5 |
| Credit value | 15 |
Introduction
As globalisation increases and the 24-hour economy develops, organisations must ensure that their database management systems (DBMS) are reliable, secure, efficient and able to cope with rapid change. Database management systems will continue to service the many operations of our modern world. They are becoming increasingly complex to develop and manage owing to technological advancements and changes in the way that organisations do their business in a global market.
In this unit, students will examine the structure of data and how an efficient data design follows through into an effectively developed database management system. Students will examine the merits of different DBMS platforms and investigate system administration and management tools of the platform.
Among the topics included in this unit are: examination of different database management systems, database design tools and techniques of relational database management systems, using an open source platform to develop and test and manage a client’s system.
On successful completion of this unit, students will be able to demonstrate their knowledge of the fundamentals of database management systems, make informed choices between vendor and open source platforms for database management systems, design and develop a relational DBMS for a client using an open source platform and carry out system administration tasks. As a result, they will develop skills such as communication literacy, critical thinking, analysis, reasoning and interpretation, which are crucial for gaining employment and developing academic competence.
Learning Outcomes
By the end of this unit students will be able to:
LO1 Analyse different types of database management systems
LO2 Design a database management system using a relational model to meet client requirements
LO3 Develop a database management system using a suitable platform
LO4 Demonstrate the system administration and management tools available on the chosen platform.
Essential Content
LO1 Analyse different types of database management systems
Database structure principles and systems:
Types of database management systems (DBMS) and their operating system support, e.g. MySQL, Oracle.
Data models, e.g. entity-relationship, relational, hierarchical, network, object-oriented, object-relational.
Examine details of DBMS based on a relational model.
Relational data structures, including relations, attributes, domain, tuple, cardinality.
Constraints, including key, domain, referential integrity.
Normalisation in developing efficient data structures.
Modelling languages, e.g. query language, data definition language (DDL), data, manipulative language (DML), relational languages.
Transaction and concurrency in DBMS.
Investigation of open source and vendor-specific systems. Multiple platform approaches to database management.
LO2 Design a database management system using a relational model to meet client requirements
Design considerations:
Determine user and system requirements.
Examine design tools and techniques for a relational database management system.
Physical system design.
Logical design, including design for relational databases, tables, data elements, data types, keys and indexes, entity relationship modelling, data-flow diagrams, flowcharts.
DBMS selection, e.g. MySQL.
Hardware, software and other resource requirements.
Mathematical relations, e.g. relational algebra, relational calculus.
Application development:
Data input, including verification, validation, calculated fields, masks, directed input.
Reports, including queries, presentation of data, layouts.
Task automation, e.g. imports, updates, deletions.
Queries using multiple criteria, form values and wild cards, action queries, calculated queries, queries across multiple tables.
Error checking and quality assurance:
Test plans to check correctness of data, security, functionality, accessibility and usability.
Quality, effectiveness and appropriateness of the solution, including correctness of data, relationships between data, data integrity, normalisation.
Working with clients and others to improve the quality, effectiveness, security and appropriateness of solution design
LO3 Develop a database management system using a suitable platform
Development of DBMS:
Use of an appropriate database management system and Structured Query Language (SQL) to produce a secure solution to meet client’s requirements.
Creating, setting up and maintaining data tables. Applying data validation rules.
Generating outputs, e.g. user-generated queries, automated queries, reports.
Application and user interface, e.g. navigation, data entry forms and sub-forms, automated functions.
Populating the database.
SQL statements to extract, manipulate and modify data.
Applying security measures to control access to data, e.g. user access levels.
Testing effectiveness:
Testing the database solution using different types of testing: referential integrity, functionality, security, stability.
Selection and use of appropriate test data.
Selecting suitable test users and gathering feedback from users. Making use of testing outcomes to improve and/or refine the solution.
Optimising the solution:
Reviewing the solution, including quality of the database, fitness for purpose, suitability against the original requirements, technology constraints, strengths and improvements, platforms and compatibility.
Optimisation of data types.
Optimisation of data size, e.g. size on disk.
Tables, e.g. overheads for many tables.
Query optimising.
LO4 Demonstrate the system administration and management tools available on the chosen platform
Demonstrations of server management:
Describe core database administration tasks and tools.
Setting up and managing data storage for servers and users.
Back-up and recovery routines for data and applications.
Managing authorisations.
Managing security and encryption.
Importing and exporting data.
Trace database activity.
Monitoring performance and optimising performance.
Audit trails.
Managing alerts and notifications.
Database maintenance, including setting up automatic routines.
Learning Outcomes and Assessment Criteria
| Pass | Merit | Distinction |
| LO1 Analyse different types of database management systems |
D1 Evaluate different database management systems available in relation to open source and vendor-specific platforms, justifying the criteria used in the evaluation. |
|
| P1 Compare the different types of database models.
M1 Assess how relational database models and the process of normalisation can provide reliable and efficient data structures. |
||
| LO2 Design a database management system using a relational model to meet client requirements |
D2 Evaluate the effectiveness of the system design and development against client and system requirements. |
|
| P2 Produce a design for a relational database management system to meet client requirements. | M2 Analyse how the design will optimise system performance. | |
| Pass | Merit | Distinction |
| LO3 Develop a database management system using a suitable platform | ||
| P3 Develop a fully functional system that meets client and system requirements, using an open source language with an application software.
P4 Test the system for functionality and performance. |
M3 Implement effective features in the solution to handle concurrency, security, user authorisations and data recovery. | LO3 and LO4
D3 Analyse any future improvements that may be required to ensure the continued effectiveness of the database system. |
| LO4 Demonstrate the system administration and management tools available on the chosen platform | ||
| P5 Demonstrate the tools available in the system to monitor and optimise system performance and examine the audit logs.
P6 Demonstrate the tools available in the system to manage security and authorisations. |
M4 Assess the effectiveness of the system administration and management tools available on the platform, identifying any shortcomings of the tools. | |
Recommended Resources
Textbooks
Connolly, T. and Begg, C. (2014) Database systems: A Practical Guide to Design, Implementation and Management. 6th edn. Addison-Wesley.
Elmasri, R. and Navathe, S. (2015) Fundamentals of Database Systems. 7th edn. Addison-Wesley.
Hoffer, J. (2008) Modern Database Management. Pearson Education.
Jeffrey A., Ramesh, V. and Topi Heikki, T. (2016) Modern Database Management. 12th edn. Pearson Education.
Silberschatz, A., Korth, H. F. and Sudarshan, S. (2011) Database System Concepts. 6th edn. McGraw-Hill Edition.
Plus other textbooks linked to the version of the software used for a given platform.
Links
This unit links to the following related units:
Unit 4: Database Design & Development
Unit 11: Strategic Information Systems.
Are You Searching Answer of this Question? Request British Writers to Write a plagiarism Free Copy for You.
The post Unit 41 Database Management Systems (H/618/7472) Assignment Brief 2026 appeared first on BTEC Assignment UK.
The post Unit 41 Database Management Systems (H/618/7472) Assignment Brief 2026 appeared first on Your Online Resourses Guide.