Professional blog

Assessment 1 Detail 

Quizzes assess students’ ability to understand theoretical materials. The quiz will be either multiple  choice questions or short questions relevant to the lecture materials. 

There will be three quizzes on Week 4, 6 and 8. The students must attempt the online quizzes  individually using the unit site. In total, quizzes are worth 10% of the unit grade. There will be no  practice attempt. The quizzes need to be completed in one sitting during tutorial time. 

Assessment 1 Marking Criteria and Rubric 

Assessment 2: Laboratory Practicum 

Due date: 

Week 3, 5, 7

Group/individual: 

Individual/ Invigilated

Word count/Time provided: 

(Equiv. 2000 words)

Weighting: 

10%

Unit Learning Outcomes: 

ULO1, ULO2, ULO3, ULO4

Assessment 2 Detail 

There are weekly lab activities and exercises that assess students’ understanding of theoretical  materials. The students must attempt the weekly lab activities individually and submit them using  the unit site. In total, the lab activities are worth 10% of the unit grade. 

Assessments 2 Marking Criteria and Rubric 

The assessment will be marked out of 100 and will be weighted 10% of the total unit mark. The  marking criteria and rubric are shown on the following page. 

Assessment 2 Marking Criteria and Rubric

Marking Criteria 

Not Satisfactory  

(0-49% of the criterion  

mark)

Satisfactory 

(50-64% of the criterion  mark)

Good 

(65-74% of the criterion  mark)

Very Good 

(75-84% of the criterion  mark)

Excellent 

(85-100% of the criterion  mark)

Week-2 lab activities  (20%)

Fails to demonstrate a  clear understanding of  the concept of  

Techniques for  

analysing programming  problems and  

answering the lab  

activities questions.

Demonstrates a clear  understanding of  

Techniques for  

analysing programming  problems and  

answering the lab  

activities questions.

Demonstrates an  

ability to apply the  

understanding of  

Techniques for  

analysing programming  problems mostly  

correctly and  

answering the lab  

activities questions.

Demonstrates an  

ability to correctly  

apply the  

understanding of the  concept of Techniques  for analysing  

programming problems and answering the lab  activities questions

Demonstrates a high  ability to correctly  

apply the  

understanding of  

Techniques for  

analysing programming  problems and  

answering the lab  

activities questions. The answer is clear,  concise, correct and  complete.

Week-3 lab activities  (20%)

Fails to demonstrate a  clear understanding of  Repetition Structures and functions concept  and answer the lab  

activities question.

Demonstrates a clear  understanding of the  concept of Repetition  Structures and  

functions and answer  the lab activities 

question.

Demonstrates an  

ability to correctly  

understand the  

concept of Repetition  Structures and  

functions correctly and  answer the lab  

activities question.

Demonstrates an  

ability to apply the  

understanding of the  concept of Repetition  Structures and  

functions correctly and  to answer the lab  

activities questions

Demonstrates a high  ability to correctly  

understand Repetition  Structures and  

functions concept and  answer the lab  

activities questions. The answer is clear,  concise, correct and  complete.

Week-5 lab activities  (20%)

Fails to demonstrate a  clear understanding of  the concept of object oriented programming and to answer the lab  activities question.

Demonstrates a clear  understanding of the  concept of object 

oriented programming and answer the lab  

activities question.

Demonstrates an  

ability to correctly  

apply the concept of  object-oriented  

programming correctly and answer the lab  

activities question.

Demonstrates an  

ability to apply the  

understanding of the  concept of object 

oriented programming correctly and to answer  the lab activities 

questions

Demonstrates a high  ability to correctly  

understand the  

concept of object 

oriented programming and answer the lab  

activities questions. The answer is clear,  concise, correct and  complete.

Week-7 lab activities  (20%)

Fails to demonstrate a  clear understanding of  the Systems  

development lifecycle  concept and answer  the lab activities 

question.

Demonstrates a clear  understanding of the  Systems development  lifecycle concept and  answer the lab  

activities question.

Demonstrates an  

ability to apply the  

concept of Systems  development lifecycle  correctly and answer  the lab activities 

question.

Demonstrates an  

ability to apply the  

understanding of the  concept of Systems  development lifecycle  correctly and to answer  the lab activities 

questions

Demonstrates a high  ability to understand  the concept of Systems  development lifecycle correctly and answer  the lab activities 

questions. 

The answer is clear,  concise, correct and  complete.

Week-9 lab activities  (20%)

Fails to demonstrate a  clear understanding of  the concept of UML to  answer the lab  

activities question.

Demonstrates a clear  understanding of the  concept of UML and  answer the lab  

activities question.

Demonstrates an  

ability to understand  the concept of UML mostly correctly and  answer the lab  

activities question.

Demonstrates an  

ability to apply the  

understanding of the  concept of UML 

correctly and to answer  the lab activities 

questions

Demonstrates a high  ability to apply UML correctly and answer  the lab activities 

questions. 

The answer is clear,  concise, correct and  complete.

Assessment 3: Programming Project and Report 

Due date: 

Week 8

Group/individual: 

Individual

Word count/Time provided: 

Report 1000 words + Code (equiv. 2500 words)

Weighting: 

40%

Unit Learning Outcomes: 

ULO1, ULO3

Assessment 3 Detail 

Task 

Python Programming Assessment: Data Processing and Analysis 

Project Objective: 

The Python Programming Assessment aims to evaluate the students’ proficiency in using  functions and various data structures (lists, tuples, dictionaries) to process and analyse data.  The project should demonstrate their understanding of programming concepts, data  manipulation, and the effective use of functions and data structures. 

Project Description: 

You are assigned a data analysis project for a company named “DataTech Solutions.” The  company has provided you with a dataset containing information about their employees, and  they require you to perform specific data analysis tasks. You will store the data directly in  data structures within your Python program. 

Dataset Structure: 

The dataset consists of the following columns: 

1. Employee ID (integer) 

2. Employee Name (string) 

3. Department (string) 

4. Salary (float) 

5. Years of Experience (integer) 

Tasks: Create a Python program that uses data structures (lists, dictionaries) to perform the  following tasks: 

1. Load Data: 

• Manually create a list of dictionaries to represent the dataset.

2. Display Employee Information: 

• Create a function to display the information for a specific employee based on their  Employee ID. 

• Allow the user to input an Employee ID, and if the ID exists in the dataset, display the  corresponding employee information. 

3. Calculate Average Salary: 

• Create an algorithm (called Algorithm 1) to calculate the following: 

o Calculate and display the average salary of all employees. 

4. Department-wise Salary Distribution: 

• Create an algorithm (called Algorithm 2) to calculate the following: 

o Create a function that displays the salary distribution for each department. o The output should show the total number of employees and the average salary  for each department. 

5. Identify High Experience Employees: 

• Create a function that identifies employees with more than 10 years of experience. • Display the names and departments of these high-experience employees. 

6. Update Employee Salary: 

• Create a function that allows the user to update the salary of a specific employee  based on their Employee ID. 

• Prompt the user for the Employee ID and the new salary. 

Assessment Evaluation: 

• Proper usage of functions, lists, dictionaries, and data processing. 

• Correctness and accuracy of data analysis. 

• Clear and structured output presentation. 

• Error handling for user inputs. 

• Overall code organization, readability, and adherence to Python best practices. Your report will consist of: 

1. Your algorithm (pseudocode) 

2. Source code for your Python implementation 

Assessments 3 Marking Criteria and Rubric 

The assessment will be marked out of 100 and will be weighted 40% of the total unit mark. The  marking criteria and rubric are shown on the following page. 

Assessment 3 Marking Criteria and Rubric

Marking Criteria 

Not Satisfactory  

(0-49% of the criterion  

mark)

Satisfactory 

(50-64% of the criterion  mark)

Good 

(65-74% of the criterion  mark)

Very Good 

(75-84% of the criterion  

mark)

Excellent 

(85-100% of the criterion  mark)

Algorithms Content (10%)

The Algorithm does  not meet the pass  

criteria. 

Missing many tasks,  use of decisions  

incorrect

Algorithms follow the  convention, contain  three notation errors,  and produce an 

algorithm at a high  level.

Algorithms have at  most one notation  error. 

The algorithm  

matches the  

program code.

Algorithms precisely  describe the algorithm  design. 

Flowcharts do not  

have any unnecessary  components.

Algorithm design is  efficient in terms of  time and memory.

Algorithms layout (10%)

The Algorithm is  

cluttered looking or  confusing. It is often  difficult to locate  

important elements

The Algorithm has a  usable layout, but it is  not easy to locate the  most important  

elements.

The Algorithm has  a usable layout. It  is easy to locate all of the important  

elements.

The Algorithm has an  attractive and usable  layout. It is easy to  locate all important  elements

The Algorithm has an  exceptionally  

attractive and usable  layout. It is easy to  locate all important  elements. Graphic  

elements are used  

effectively to organise  material.

Identify correct  

input/ output 

(10%)

Unable to identify  any input and output 

Able to identify only  one input or output

Able to identify  

some input and  

output correctly

Able to identify all  input and output  

correctly

Able to identify all  input and output  

correctly and provide  alternative

Appropriate choice  of variable names or  data structure 

(10%)

Unable to identify the  required data type or  data structure 

Able to identify the  required data type or  data structure but  

does apply correctly

Able to apply  

required data type  or data structure  but does not  

produce correct  

results

Able to apply required  data type or data  

structure and produce  partially correct results

Able to apply required  data type or data  

structure and produce  correct results

A correct choice of  sequential, selection  or repetition control  structure 

(10%)

Unable to identify the  required control  

structure

Able to identify  

required control but  does apply correctly

Able to apply the  required control  

structure but does  not produce correct  results

Able to apply the  

required control  

structure and produce  partially correct results

Able to apply the  

required control  

structure and produce  correct results

Free from syntax,  logic, and runtime  errors 

(10%)

Unable to run  

program

Able to run program  but have a logic error

Able to run the  

program correctly  without any logic  error

Able to run the  

program correctly  

without any logic error  and display  

inappropriate output

Able to run the  

program correctly  

without any logic error  and display  

appropriate output

Validate input for  errors and out-of range data 

(10%)

The program  

produces incorrect  results

The program  

produces correct  

results but does not  display them  

correctly. Does not  check for errors and  out-of-range data

The program  

produces correct  results but does not  display them  

correctly. Does  

little check for  

errors and out-of range data

The program works  and meets all  

specifications. Does  some check for errors  and out-of-range data

The program works  and meets all  

specifications. Does  exceptional checking  for errors and out-of range data

Program  

functionality 

(10%)

Python code is  

produced that does  not execute properly.  It may contain many syntax errors 

Functionality is  

mainly implemented,  but the code may  

contain minor syntax  or logical errors.

Python code  

produces correct  results.

The program meets all  specifications.

Python code contains  only necessary  

functions, collections  statements and  

variables.

Program output 

(10%)

The program  

produces completely  incorrect results.

Program output has  significant formatting  errors.

Program output has  minor formatting  errors.

The program output  format is correct as  required.

The program handles all exceptions and  

errors correctly, 

including those which  are not part of  

specifications.

Code style 

(10%)

Incomplete or largely  dysfunctional code.

The student uses  

many global  

variables. 

Most variables have  exact names. 

The student only uses  a small number of  inline comments.

Student avoids  

unnecessary global  variables. 

All variables have  meaningful names. Sufficient inline  comments are  

present. 

Indentation is  

consistent  

throughout. 

Functions are used,  but they are not  

generic (reusable).

Code design is  

modular, containing  several reusable  

functions. 

Named constants are  used instead of magic  numbers. 

White space is  

appropriately used for  code readability.

Code includes function  header comments and  module-level  

docstrings.

Assessment 4: Case Study 

Due date: 

Week 11

Group/individual: 

Group

Word count/Time provided: 

2000 words

Weighting: 

20%

Unit Learning Outcomes: 

ULO2, ULO3, ULO4

Assessment 4 Detail 

Assessment Specifications: E-Commerce Website Development  

Assignment Type: Case Study Analysis 

The purpose of this assessment is to analyze a case study regarding the development of an E Commerce website and identify key aspects including stakeholders, requirements, use cases, and  system classes. 

Case Study 

GreenLife Grocery is a prominent grocery chain with numerous outlets across the country,  specializing in organic and health-focused products. Historically, GreenLife Grocery has thrived  through its physical stores, offering an extensive range of fresh produce, health foods, and eco friendly products. Recognizing the shift in consumer behavior towards online shopping, particularly  for groceries, GreenLife Grocery is eager to establish an online presence. The goal is to create an E Commerce platform that facilitates online shopping, offering a seamless, user-friendly experience for  customers to purchase groceries from the comfort of their homes. 

The proposed E-Commerce website aims to provide functionalities such as browsing products,  adding items to a shopping cart, online payment, order tracking, and customer support. Moreover,  GreenLife Grocery intends to synchronize the online platform with their existing inventory systems  to ensure accuracy in stock levels and incorporate features like subscription-based purchases and  personalized product recommendations. 

The success of this venture is vital for GreenLife Grocery’s expansion and maintaining a competitive  edge in the grocery retail sector. The development of this E-Commerce website requires careful  planning, understanding customer needs, and a system that aligns with both the company’s and its  customers’ expectations. 

Assessment Tasks: 

As a system analyst, you are tasked with aiding GreenLife Grocery in the development of their new  E-Commerce website. Utilize your knowledge of information systems development and the Software  Development Life Cycle (SDLC) to analyze the provided case study and complete the following tasks: 

1. Identify and briefly describe the stakeholders for the proposed E-Commerce website. 2. Identify and briefly describe the most effective technique for gathering requirements for the  E-Commerce website.

3. Identify and briefly describe both functional and non-functional requirements for the E Commerce website. 

4. Identify the major use cases and actors for the new E-Commerce website and create use  case diagrams to represent them. 

5. Identify the major classes for the new E-Commerce website and develop UML domain model  class diagrams to illustrate the system’s structure. 

Assessments 4 Marking Criteria and Rubric 

 

Marking Criteria 

Not Satisfactory  

(0-49% of the criterion  

mark)

Satisfactory 

(50-64% of the criterion  mark)

Good 

(65-74% of the criterion  mark)

Very Good 

(75-84% of the criterion  

mark)

Excellent 

(85-100% of the criterion  mark)

Identify and briefly  describe the  

stakeholders for the  proposed information  system. 

(10%)

Stakeholders are  

identified with major errors.

Stakeholders are  

identified and  

described for some  

parts of the new  

information system. Minor omissions.

Stakeholders are  

identified and  

described for some  parts of the new  

information system.

Stakeholders are  

identified and described  for most parts of the  new information system.

Stakeholders are  

identified and 

described for the new information system.

Identify and briefly  describe the best  

gathering technique  for collecting the  

proposed information  system requirements. 

(10%)

The best gathering  

technique is identified  with significant errors.

The best gathering  

technique is identified  and described for some  parts of the new  

information system. Minor omissions.

The best gathering  technique is 

identified and  

described for some  parts of the new  

information system.

The best gathering  

technique is identified  and described for most  parts of the new  

information system.

The best gathering  

technique is identified  and described for the  new information system.

Identify and briefly  describe Functional  and non-functional  requirements. 

(25%)

Functional and non functional  

requirements are  

identified with major errors.

Functional and non functional  

requirements are  

identified and  

described for some  

parts of the new  

information system. Minor omissions.

Functional and non functional  

requirements are  

identified and  

described for some  parts of the new  

information system.

Functional and non 

functional requirements  are identified and  

described for most parts  of the new information  system.

Functional and non 

functional requirements  are identified and 

described for the new information system.

Identify the major use  cases and actors for  the new information  system and draw use  case diagrams.  

(25%)

Use cases and use  case diagrams are 

wrong.

Few use cases are  identified for the new  information system.

Some of the major  use cases are  

identified with  

mostly accurate  

use case diagrams  for the new  

information system  that show some  use cases and  

actors.

Major use cases are  Identified with mostly  accurate use case  

diagrams for the new  information system  that show major use  cases and actors.

Major use cases are  identified with  

accurate use case  

diagrams for the new  information system  that show major use  cases and actors.

Identify the major  

classes for the new  information system  and draw UML  

domain model class  diagrams. 

(20%)

UML domain model  class diagrams have  major omissions

UML domain model  class diagrams are  not always accurate  for new the  

information system;  domain 

classes and their  

attributes are not  always accurate, 

logical relationships  have some errors  

among domain  

classes.

UML domain  

model class  

diagrams are  

accurate for the  new Information  system; however,  Domain classes and  their attributes are  not always  

accurate, logical  relationships have  some errors among  domain classes.

UML domain model  class diagram is mainly  accurate for the new  information system;  identified all possible  domain classes and  some attributes,  

showing logical  

relationships among  all domain classes.  Some omissions.

UML domain model  class diagram is  

accurate for the new  information system;  identified all possible  

domain classes and  some attributes,  

showing logical  

relationships among  all domain classes.

Presentation, clarity  and reference. 

(10%)

The writing style is  not fluent or well  

organised, and many  Grammatical and  

spelling mistakes. 

Word limit is ignored  completely. 

Referencing is absent  /unsystematic.

The writing style is  not always fluent or  well organised and  Grammar and  

spelling contain  

errors.  

Word limit is  

exceeded or falls  

short by more than  20%. 

The attempt at  

referencing but not  Exactly according to  APA standard and  only a few references  are cited in the text.

Mostly fluent  

writing style  

appropriate to the  assessment with  mostly accurate  

grammar and  

spelling.  

Minor omissions  only.  

Word limit is  

exceeded or falls  short by more than  10%. 

Some attempt at  Referencing and  according to the  APA standard. 

Few references are  cited in the text

Mostly Fluent writing  style appropriate to  the assessment with  accurate grammar and  spelling. 

Word limit is  

maintained. 

Referencing is mainly  accurate and  

according to the APA  standard.  

Most of the references  are cited in the text.

Fluent writing style  appropriate to the  assessment with  

accurate grammar and  spelling. 

Word limit is  

maintained. 

Referencing is mainly  accurate and  

according to the APA  standard.  

All references are  

cited in the text.

Assessment 5: Final Exam 

Due date: 

Week 12

Group/individual: 

Individual

Word count/Time provided: 

1.5 hours (equiv. 1500 words)

Weighting: 

20%

Unit Learning Outcomes: 

ULO2, ULO4

Assessment 5 Detail 

The final exam assesses students’ ability to understand theoretical materials. The exam will be  multiple choice questions and short questions relevant to the lecture materials. 

The students must attempt the online exam individually using the subject site. The exam weighted  20% of the subject grade. There will be no practice attempt