ATHOL RUSTON
COMPUTATIONAL DESIGN SPECIALIST
QUALIFICATIONS
ARB/RIBA Part II: Predicted Distinction
ARB/RIBA Part I: First Class Honours
PERSONAL AWARD SHORTLISTS
RIBA South East Award
Morgan Carn Design Award
The Chaplaincy Prize for Creative Sustainability
PERSONAL DETAILS
atholruston96@gmail.com
07957 290 275
linkedin.com/in/athol-ruston-b85b77150
EDUCATION
Manchester School of Architecture
RIBA Architecture Part II, 2021 - Present
MArch 1 Infra Space [Distinction]
MArch 2 CPU.ai [Predicted Distinction]
May 2023 Completion
University of Brighton
School of Architecture and Design
RIBA Architecture Part I
First Class Honours
Graduated July 2018
BHASVIC
AS and A Levels A*- C
Maths [Mechanics]
Graphic Design
Fine Art Economics
Dorothy Stringer High School
GCSE’s 11 A*-C
SOFTWARE KNOWLEDGE
ADVANCED STANDARD
Revit // 3 Years
Rhino // 2 Years
Grasshopper // 2 Years
Python // <1 Year
Swift // <1 Year
C++ // <1 Year
Unity <1 Year
Unreal Engine <1 Year
PRACTICE WORK
Conran + Partners // AJ100
London / Brighton
2019 - 2021
Part I Architectural Assistant
ZCD Architects
London
2018 - 2019
Part I Architectural Assistant
FURTHER ACHIEVEMENTS
Winner of £100m bid for Town Centre Masterplan [April, 2020 // Conran + Partners, team of three]
RIBA Architectural Ambassador [Jan 2020]
Hackney Design Awards, Peoples Choice Award [Feb 2019 // ZCD Architects, team of five]
University of Brighton Housing Exhibition [Sept 2018]
The Pier Show, Hastings Pier [RIBA 2017 Sterling Prize winner]
EXTRA CURRICULAR
Photoshop // 10 Years
Illustrator // 8 Years
InDesign // 8 Years
Sketchup // 8 Years
Enscape // 2 Years
VRay // 1 Year
AutoCAD // 1 Year
Vectorworks // 1 Year
REFERENCES
Solon Solomou
s.solomou@mmu.ac.uk
Samuel Higgins
s.higgins@mmu.ac.uk
Manchester School of Architecture Design Tutors
John Hatton
Conran + Partners Associate john.hatton@conran.com
Luis Diaz
University of Brighton Design Tutor
L.Diaz@brighton.ac.uk
RIBA Competition: Re-imagining the garden city
ZCD ARCHITECTS
Part I Architectural Assistant Private Houses - Interior - Community Hackney, London [2018-2019]
Vectorworks - Illustrator - Indesign - Photoshop - Sketchup Award Winners: Hackney Design Awards, People’s Choice Award: Clapton House
As a first Architectural Assistant job, the role at ZCD Architects contained a high level of responsibility. With the small 5-6 person practice working on RIBA Stages 0-7, my knowledge of the roles of an architect, as well the logistics involved in running an architectural company, were significantly developed. Hands on
experience with live projects and client/contractor meetings allowed for a sharp increase in practical knowledge. The work was engaging and rewarding due to results immediately benefiting private clients in their homes and businesses. Competition work also enhanced my masterplanning and presentation skills.
CONRAN + PARTNERS // AJ100 [REVIT]
Part I Architectural Assistant Residential - Town Planning - Masterplanning Brighton / London [2019-2021]
Revit - Enscape - Illustrator - Indesign - Photoshop
Competition Winners: £100m bid for Town Centre Masterplan [April 2020, team of three]
My second Architectural Assistant role at Conran + Partners provided an insight into working for a larger AJ100 practice. Securing the contact for the job through the RIBA South East Award presentations provided the perfect gateway into the internationally renowned company. The majority of my time at the
practice involved working on the Hailsham Town Centre Masterplan. Following our successful bid, time was spent in RIBA Stages 1 and 2 where masterplan layouts were strategised and discussed with clients. Other projects included medium to large scale housing projects and RIBA Ambassador work.
RIBA PART I PRACTICE SUMMARY [REVIT]
Part I Architectural Assistant Residential - Town Planning - Masterplanning / Private Houses - Interior - Community Brighton / London [2018-2021]
Revit - Enscape - Illustrator - Indesign - Photoshop - Vectorworks - Sketchup
During the three years of practice work that was completed before my masters, I gained a broad range of knowledge in regards to the design and construction process of buildings. The role at ZCD Architects involved producing concepts, drawings and planning applications for private residential projects in London. With the practice taking projects from Strategic
Definition to Handover and Use [RIBA stages 0-7], I gained vital skills in the process of briefing, designing, constructing and operating building projects. The work at Conran + Partners transferred these skills for a larger scale of residential project and gave me experience in BIM software. These digital skills have now been utilised and enhanced further during my MArch studies.
ARB/RIBA PART I OVERVIEW
ARB/RIBA Part I [Architecture]
Design Project - Social Housing [Grade: First]
Brighton School of Architecture and Design [2017-2018]
Illustrator - Indesign - Photoshop - Sketchup - Model Making
Shortlists: RIBA South East Award - Morgan Carn Design Award - Chaplaincy Prize for Creative Sustainability
This scheme was designed in response to a complex brief based around adding additional housing to three existing tower blocks in central Brighton. The final proposal was established through the process of iteration, drawing and model making to create an intricate proposal of horizontal and vertical mathousing. The two building typologies were connected
by streets and paths through the site that formed relationships for both new and existing residents. Changes in level or material signified a shift in privacy level and the design ensured that every dwelling featured a large landing that offers additional exterior space.
‘Athol was the top performing student in my studio that year for both the term 1 and terms 2/3 studio project. His project and approach remains among the best I’ve seen in the last ten years and I can recommend him without any reservations.’ - Luis Diaz, Design Tutor [Reference available upon request]
Polyvalent play space testing
This project provided thirty dwellings for transient offshore workers on a difficult site in Grimsby. It challenged the recent weakening of the planning system and how the status of temporary residence affects space and the basic provisions of light, air and heat. The housing was augmented by socially productive space for families and children. Before
formal playgrounds, children used to explore and occupy leftover spaces of the city, places of play were informal impromptu spaces of gathering. Through the movements of play, the proposal became the surface for a child to test the relationship between their body and its surroundings. Designed in Revit, the next page will explore the computational aspects of the project.
A green future for Grimsby
Facade design for optimum building performance
THE PLAYHOUSE [COMPUTATIONAL FACADE]
ARB/RIBA Part II Architecture [MArch 1] - Infrastructure Space
Professional Studies 1 - Offshore Worker Housing, Grimsby [Grade: Distinction]
Manchester School of Architecture [2021]
Revit - Grasshopper - Rhino - Safaira - VRay - Illustrator - Indesign - Photoshop
By designing the elevations using computation, the facade was able to be designed in a way that considered light and function simultaneously. This allowed for a frontage that sat within the Grimsby context and also provided ideal daylighting conditions within the proposal. These daylighting conditions were also monitored and designed to let certain amounts of
light into each space depending on the internal room types. For example, living space was programmed to be bright, however storage could be left darker. The final façades made use of multiple, sometimes layered, material finishes that provided both quality internal daylighting and a scheme that showed continuity with the surrounding area and internal programme.
Combined script for daylighting analysis
Iterative testing
Exploded process diagram in context
GLASHUS ‘ICE CREAM FACTORY’ [REVIT]
ARB/RIBA Part II Architecture [MArch 1] - Infrastructure Space
Professional Studies 2 - Retrofit Ice Cream Factory, Grimsby (Conservation Project) [Grade: Distinction]
Manchester School of Architecture [2022]
Revit - Safaira - VRay - Illustrator - Indesign - Photoshop
The Glashus project repurposed a former fish dock, ice factory and market in Grimsby. With a severely scaled back and redistributed fishing industry in the port and wider area, the site forms one of a number of redundant structures with no clear purpose in the context of a modern, functional port. This project re-
imagined the area as a new entertainment district with the ice cream factory functioning as a ‘Willy Wonka’ style gateway to the proposed masterplan. The proposal tested whether infrastructural architecture could be productive in service of humans and the environment simultaneously.
Proposed pier: Ice cream factory / Tour and experience / Children’s playground
Street food market
Grimsby’s industrial heritage retained
Advancing traditional building typologies with parametric energy generating prosthetic devices and systems
A future zero-carbon urban realm
[URBAN] PROSTHETIC ENERGY [COMPUTATIONAL THESIS]
ARB/RIBA Part II Architecture [MArch 2] - CPU.ai
Design Thesis - Integrating ‘Prosthetic’ energy generating devices into an urban context through the use of a custom built computational tool. [Predicted Distinction]
Manchester School of Architecture [2022-2023]
Rhino - Grasshopper - Python - Swift - C# - Unity - Unreal Engine - Illustrator - Indesign - Photoshop
This thesis explored whether it is possible to achieve carbon neutrality by integrating energy generating prosthetics into the fabric of the built environment. This was achieved by developing hybrid prosthetic typologies derived from established building types. In order to balance liveability, cost and carbon with
technological prosthetics, a multi-factor analysis and optimisation approach was used in a computational tool that was constructed over the year. The tool demonstrated its success in generating zero-carbon urban blocks while taking into account and improving other significant societal factors
An augmented street-scape
implemented in a larger unified computational tool. were capable of being completely zero-carbon.
Parametric energy generating prosthetic device scripts Advanced prosthetic typology scripts
Urban Computational Tool Workflow: https://youtu.be/xioFyTHpW_4
[URBAN] PROSTHETIC ENERGY [COMPUTATIONAL WORKFLOW]
ARB/RIBA Part II Architecture [MArch 2] - CPU.ai
Design Thesis - Integrating ‘Prosthetic’ energy generating devices into an urban context through the use of a custom built computational tool. [Predicted Distinction]
Manchester School of Architecture [2022-2023]
Rhino - Grasshopper - Python - Swift - C# - Unity - Unreal Engine - Illustrator - Indesign - Photoshop
This depicts how the computational tool was constructed to provide any controller with the capability to design an urban block at the Eastern Gateway. Supported and explored through applicable theories, the tool can be used anywhere on site. The unified computational process combined
all of the scripts and data from the energy prosthetics and prosthetic typologies. During the optimisation stage, the controller can select which performance criteria they intend to maximise and the prosthetic script will run iterations repeatedly until the choice is optimised to maximise appropriate factors.
Final zero-carbon urban block design
Iterative Computational Tool Testing: https://youtu.be/zlaEjCtGxgA
[URBAN] PROSTHETIC ENERGY [USER INTERFACE PROGRAMMING]
ARB/RIBA Part II Architecture [MArch 2] - CPU.ai
Design Thesis Products - Two User Interfaces. [Predicted Distinction]
Manchester School of Architecture [2022-2023]
Rhino - Grasshopper - Python - Swift - C# - Unity - Unreal Engine Software Development / UX / UI / Graphic Design
The additional thesis outcomes consisted of two user interfaces that allow relevant stakeholders to access the capabilities of the Prosthetic Energy project. The first desktop application allows developers to create and compare prosthetic urban block iterations and proposals created within the computational tool before submitting them for the next RIBA Stage. The
second mobile application provides Eastern Gateway residents with access to all prosthetic features. It connects residents, councils and developers, avoiding elaborate and expensive public consultations and allowing for direct communication and rating of new proposals on site.
Prosthetic Energy Resident Application
‘When your own students impress you’ - Ulysses Sengupta, Design Tutor [Reference available upon request]
Functional mobile app: https://youtu.be/IzhE9AH3T_g
A user interface for the advanced computational tool Powered by Powered by