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DTSC71-301: Deep Learning Through Neural Networks

Description

Computer vision, natural language processing and personalised recommendations are just a few of the uses of artificial neural networks that are increasingly relevant to real-world problems that pose challenges for traditional data analysis techniques. This subject introduces students to the foundational ideas associated with the many variations of these models that have been developed for domains involving image data, temporal data, and natural language. This includes feed-forward, fully connected neural networks, convolutional neural networks, recurrent neural networks, and the transformer architecture. Class discussions will introduce the technical underpinnings of the models and applied sessions and assessments provide students the opportunity to experiment and apply them to a wide range of practical, real-world problems using Python.

Subject details

Type: Postgraduate Subject
Code: DTSC71-301
EFTSL: 0.125
Faculty: Bond Business School
Semesters offered:
  • May 2024 [Standard Offering]
  • January 2025 [Standard Offering]
Credit: 10
Study areas:
  • Actuarial Science and Data Analytics
Subject fees:
  • Commencing in 2024: $5,410.00
  • Commencing in 2025: $5,520.00
  • Commencing in 2024: $6,060.00
  • Commencing in 2025: $6,340.00

Learning outcomes

  1. Apply statistical techniques and mathematical reasoning to formulate machine learning tools for data analysis and appropriately explain key structural components and fitting algorithms.
  2. Develop neural networks, including convolutional and recurrent structures and other modern extensions, and accurately identify key structural components and their significance.
  3. Critically apply neural networks to business data systems and other circumstances, such as image recognition and natural language processing.
  4. Articulate machine learning ideas, decisions, recommendations and other information in a clear, concise writing style tailored to a given audience.
  5. Demonstrate an appropriate awareness of global issues impacting decision-making paradigms and model building exercises.
  6. Apply appropriate professional standards and best practices to make ethical, responsible decisions decision-making paradigms and model building exercises.

Enrolment requirements

Requisites:

Pre-requisites:

Co-requisites:

There are no co-requisites

Assumed knowledge:

Assumed knowledge is the minimum level of knowledge of a subject area that students are assumed to have acquired through previous study. It is the responsibility of students to ensure they meet the assumed knowledge expectations of the subject. Students who do not possess this prior knowledge are strongly recommended against enrolling and do so at their own risk. No concessions will be made for students’ lack of prior knowledge.

Assumed Prior Learning (or equivalent):

Possess demonstrable knowledge in elementary probability theory, statistics, elementary calculus and linear algebra to the level of a unit such as Quantitative Methods

Restrictions: This subject is not available to
  • Study Abroad Students

Subject dates

  • Standard Offering
    Enrolment opens: 17/03/2024
    Semester start: 13/05/2024
    Subject start: 13/05/2024
    Cancellation 1: 27/05/2024
    Cancellation 2: 03/06/2024
    Last enrolment: 26/05/2024
    Withdraw - Financial: 08/06/2024
    Withdraw - Academic: 29/06/2024
    Teaching census: 07/06/2024
  • Standard Offering
    Enrolment opens: 10/11/2024
    Semester start: 20/01/2025
    Subject start: 20/01/2025
    Cancellation 1: 03/02/2025
    Cancellation 2: 10/02/2025
    Last enrolment: 02/02/2025
    Withdraw - Financial: 15/02/2025
    Withdraw - Academic: 08/03/2025
    Teaching census: 14/02/2025
Standard Offering
Enrolment opens: 17/03/2024
Semester start: 13/05/2024
Subject start: 13/05/2024
Cancellation 1: 27/05/2024
Cancellation 2: 03/06/2024
Last enrolment: 26/05/2024
Withdraw - Financial: 08/06/2024
Withdraw - Academic: 29/06/2024
Teaching census: 07/06/2024