HankCa

Senior Software Engineer at Department of Agriculture and Water Resources
Last active on Stack Overflow yesterday

My primary objectives are to become an expert in the fields of clean code, software architecture and software engineering methodologies specialising in lean / agile development. I would like to be platform and language agnostic and my current specialty is Java development.

I love to keep active as I believe and know, that a healthy body helps make a healthy mind.

Significant tech items owned

1982 - Vic 20 1983 - Microbee 32 KB 1984 - Dot Matrix Printer 1987 - Microbee 256 KB 1990 - Macintosh Plus 1993 - Macintosh Centris 610 1997 - Power Macintosh 7300 2001 - iBook Dual USB 15” 2004 - iMac 17” 2007 - MacBook Pro 17” 2009 - Mac mini 2011 - iMac 27” 2011 - Fujitsu ScanSnap 2012 - Raspberry Pi B 2014 - Raspberry Pi B+ 2014 - Intel NUC 2015 - Synology NAS 2015 - MacBook Pro 15” 2016 - Skoda Octavia (largely software driven; and the most stand-out car I've ever owned)

Favourite editor - VI(M) over EMacs but I'm not a hard core vimer and find a good graphical IDE to be sufficient.

My primary objectives are to become an expert in the fields of clean code, software architecture and software engineering methodologies specialising in lean / agile development. I would like to be platform and language agnostic and my current specialty is Java development.

I love to keep active as I believe and know, that a healthy body helps make a healthy mind.

Significant tech items owned

1982 - Vic 20 1983 - Microbee 32 KB 1984 - Dot Matrix Printer 1987 - Microbee 256 KB 1990 - Macintosh Plus 1993 - Macintosh Centris 610 1997 - Power Macintosh 7300 2001 - iBook Dual USB 15” 2004 - iMac 17” 2007 - MacBook Pro 17” 2009 - Mac mini 2011 - iMac 27” 2011 - Fujitsu ScanSnap 2012 - Raspberry Pi B 2014 - Raspberry Pi B+ 2014 - Intel NUC 2015 - Synology NAS 2015 - MacBook Pro 15” 2016 - Skoda Octavia (largely software driven; and the most stand-out car I've ever owned)

Favourite editor - VI(M) over EMacs but I'm not a hard core vimer and find a good graphical IDE to be sufficient.

First computer: Vic 20 (1983)
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Position Aug 2017 → Current (1 year, 5 months)
Senior Software Engineer (Contractor) at Australian Department of Agriculture and Water Resources

In this role I am adding functionality to the export system for Non-Livestock (eg. Domestic animals) and reproductive material (eg. Artificial insemination).

I stepped out of my comfort zone to develop using Microsoft technologies. After all I claimed I wanted to be a polyglot.

I am using my knowledge and experience to (also) discuss and implement or encourage changes. I changed the version control from TFS to Git and upgraded to the latest Javascript using transpilers and polyfills (since Internet Explorer is a required platform).

I am moving them towards a Continuous Integration deploy environment and an Agile workflow for business and development processes. I have set them up using Jira and am modifying the workflow to be purely command-line and scriptable. I have moved the SQL deployment from a manual process to a scripted one. I am assisting with the upgrade of the .Net framework to version 4.6 so as to enable scripting using the latest msbuild.

In this role I am adding functionality to the export system for Non-Livestock (eg. Domestic animals) and reproductive material (eg. Artificial insemination).

I stepped out of my comfort zone to develop using Microsoft technologies. After all I claimed I wanted to be a polyglot.

I am using my knowledge and experience to (also) discuss and implement or encourage changes. I changed the version control from TFS to Git and upgraded to the latest Javascript using transpilers and polyfills (since Internet Explorer is a required platform).

I am moving them towards a Continuous Integration deploy environment and an Agile workflow for business and development processes. I have set them up using Jira and am modifying the workflow to be purely command-line and scriptable. I have moved the SQL deployment from a manual process to a scripted one. I am assisting with the upgrade of the .Net framework to version 4.6 so as to enable scripting using the latest msbuild.

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Open source Jan 2016 → Current (3 years)

Developed as part of my 2015-17 role as senior software engineer at Geoscience Australia.

Developed as part of my 2015-17 role as senior software engineer at Geoscience Australia.

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Open source Jan 2013 → Current (6 years)

My JavaFX implementation of Mandelbrot Set with mouse drill-down.

My JavaFX implementation of Mandelbrot Set with mouse drill-down.

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Open source Jan 2016 → Jul 2017 (1 year, 7 months)

Developed as part of my 2015-17 role as senior software engineer at Geoscience Australia.

Developed as part of my 2015-17 role as senior software engineer at Geoscience Australia.

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Position Aug 2015 → Jun 2017 (1 year, 11 months)
Senior Software Engineer (Contractor) at Geoscience Australia

In this role I worked in different teams on a number of important Geoscience Australia projects:

Geodesy – Geodesy is the science of accurately measuring and understanding three fundamental properties of the Earth: its geometric shape, its orientation in space, and its gravity field— as well as the changes of these properties with time.

Geodesy at Geoscience Australia aims to deliver the world's best Geospatial Reference System for Australia. A National Geospatial Reference System (NGRS) provides the fundamental, national-scale, reference frame that establishes the spatial relationships on and outside of the Earth’s surface and allows spatial information to be interrelated in the same frame. An NGRS supports a wide range of local, regional and national planning and developmental activities, including cadastral and engineering surveys, topographic mapping, mineral and petroleum exploration, hazard monitoring, and navigation, as well as global monitoring of the atmosphere, oceans and coastal zones.

My role in this project is to help develop the international standards through the creation and modification of Schemas (XML and Database) and the consumption, persistence and analysis of GNSS data (http://www.ga.gov.au/scientific-topics/positioning-navigation/geodesy/gnss-networks).

Technologies used are Angular 2, Java Spring 4, JAXB, JPA, GIT, GitHub, Docker, AWS and Maven.

Geoscience Portal – The Geoscience Portal displays geospatial on the map with the data from various state, territory and federal government agencies. Data such as for mines, minerals, boreholes, water resources, magnetic intensity, ports, lakes, rivers and coastlines, and oil and gas resources.

It is an open source project (https://github.com/GeoscienceAustralia/geoscience-portal) and uses Web Mapping Service (WMS) and Web Feature Service (WFS) data sources. It is built using Open Layers v2, GeoNetwork indexing server, and with Web Mapping Service (WMS) and Web Feature Service (WFS) data from Geoserver and ArcGis geospatial data servers. The application is written in the ExtJS Javascript framework.

In this role I worked in different teams on a number of important Geoscience Australia projects:

Geodesy – Geodesy is the science of accurately measuring and understanding three fundamental properties of the Earth: its geometric shape, its orientation in space, and its gravity field— as well as the changes of these properties with time.

Geodesy at Geoscience Australia aims to deliver the world's best Geospatial Reference System for Australia. A National Geospatial Reference System (NGRS) provides the fundamental, national-scale, reference frame that establishes the spatial relationships on and outside of the Earth’s surface and allows spatial information to be interrelated in the same frame. An NGRS supports a wide range of local, regional and national planning and developmental activities, including cadastral and engineering surveys, topographic mapping, mineral and petroleum exploration, hazard monitoring, and navigation, as well as global monitoring of the atmosphere, oceans and coastal zones.

My role in this project is to help develop the international standards through the creation and modification of Schemas (XML and Database) and the consumption, persistence and analysis of GNSS data (http://www.ga.gov.au/scientific-topics/positioning-navigation/geodesy/gnss-networks).

Technologies used are Angular 2, Java Spring 4, JAXB, JPA, GIT, GitHub, Docker, AWS and Maven.

Geoscience Portal – The Geoscience Portal displays geospatial on the map with the data from various state, territory and federal government agencies. Data such as for mines, minerals, boreholes, water resources, magnetic intensity, ports, lakes, rivers and coastlines, and oil and gas resources.

It is an open source project (https://github.com/GeoscienceAustralia/geoscience-portal) and uses Web Mapping Service (WMS) and Web Feature Service (WFS) data sources. It is built using Open Layers v2, GeoNetwork indexing server, and with Web Mapping Service (WMS) and Web Feature Service (WFS) data from Geoserver and ArcGis geospatial data servers. The application is written in the ExtJS Javascript framework.

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Position Feb 2015 → Dec 2015 (11 months)
Technical Consultant at APIR

I worked as a consultant Java Software Engineer to APIR Systems. APIR is an International business which provides financial infrastructure for Fund Managers and Superannuation. I have come on board to harden their code base, development environment and application deployments. I developed a plan for this work with time and cost requirements and am currently executing my recommendations.

I Migrated their code repository from SVN to GIT, upgraded the Java build and dependency system from Ant to Gradle (replacing hard-coded Java libraries as dependencies with references), Re-architect ed the J2EE Apps as Spring4 Apps, added Javadoc to the code (none existed), added Unit and Integration Tests to the code (none existed), added some functional tests with Geb and Spock (none existed), replaced local development, testing and production servers with deployments and processes in the Cloud, added a Continuous Integration server and implemented continuous deployment processes using all these technologies.

I have also assisted the company interview and hire new development staff. I will be training the staff in developing to the new system and software architecture, and will be delegating work to them.

I will be continuing in a part-time capacity as a senior software engineer to verify and validate the work of the APIR development team and to assist with development work such as on the build system.

I worked as a consultant Java Software Engineer to APIR Systems. APIR is an International business which provides financial infrastructure for Fund Managers and Superannuation. I have come on board to harden their code base, development environment and application deployments. I developed a plan for this work with time and cost requirements and am currently executing my recommendations.

I Migrated their code repository from SVN to GIT, upgraded the Java build and dependency system from Ant to Gradle (replacing hard-coded Java libraries as dependencies with references), Re-architect ed the J2EE Apps as Spring4 Apps, added Javadoc to the code (none existed), added Unit and Integration Tests to the code (none existed), added some functional tests with Geb and Spock (none existed), replaced local development, testing and production servers with deployments and processes in the Cloud, added a Continuous Integration server and implemented continuous deployment processes using all these technologies.

I have also assisted the company interview and hire new development staff. I will be training the staff in developing to the new system and software architecture, and will be delegating work to them.

I will be continuing in a part-time capacity as a senior software engineer to verify and validate the work of the APIR development team and to assist with development work such as on the build system.

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Open source Feb 2014 → Sep 2015 (1 year, 8 months)

JStock is a free stock market software for 26 countries.

JStock is a free stock market software for 26 countries.

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Position Jul 2014 → Jan 2015 (7 months)
Java Software Engineer (Contractor) at CSIRO (Commonwealth Scientific and Industrial Research Organisation)

In my contract with CSIRO I was a Java Software Engineer on the CSIRO ASKAP Science Data Archive (CASDA) project. This is the data management component of the Australian Square Kilometre Array Pathfinder (ASKAP) project.

The SKA radio telescope is an international project to build the world's largest radio telescope; consisting of thousands of antennas linked together by high bandwidth optical fibre.

The SKA will be 50 times as sensitive as the best existing radio telescopes and will have a survey speed 10,000 times faster than its nearest current-day rival—enabling it to carry out research more quickly than ever before. It aims to address fundamental questions about the evolution of the Universe including the formation of black holes, the origins of the first stars and the generation of magnetic fields in space.

I was part of a multi-discipline team consisting of 6 developers, a project manager, business analysts, testing teams (functional, performance and security) and infrastructure teams.

The software engineering team is building virtual observatory tools to the International Virtual Observatory Alliance standards. IVOA is a worldwide scientific organisation formed in June 2002. Its mission is to facilitate international coordination and collaboration necessary for enabling global and integrated access to data gathered by astronomical observatories. An information system allowing such an access is called a Virtual Observatory.

The stack we develop with includes Spring 4, Java, Tomcat, Groovy, Gradle for the builds, Postgresql, the H2 in-memory database and Elastic Search (we started with SOLR). We use Jenkins for Continuous Integration, Jira for Configuration and Issue management, Git and Atlassian Stash and Atlassian Source Tree for version control, and Atlassian Confluence for documentation.

The team works using Agile software engineering methodologies and all developers have taken turns as Scrum Master.

In my contract with CSIRO I was a Java Software Engineer on the CSIRO ASKAP Science Data Archive (CASDA) project. This is the data management component of the Australian Square Kilometre Array Pathfinder (ASKAP) project.

The SKA radio telescope is an international project to build the world's largest radio telescope; consisting of thousands of antennas linked together by high bandwidth optical fibre.

The SKA will be 50 times as sensitive as the best existing radio telescopes and will have a survey speed 10,000 times faster than its nearest current-day rival—enabling it to carry out research more quickly than ever before. It aims to address fundamental questions about the evolution of the Universe including the formation of black holes, the origins of the first stars and the generation of magnetic fields in space.

I was part of a multi-discipline team consisting of 6 developers, a project manager, business analysts, testing teams (functional, performance and security) and infrastructure teams.

The software engineering team is building virtual observatory tools to the International Virtual Observatory Alliance standards. IVOA is a worldwide scientific organisation formed in June 2002. Its mission is to facilitate international coordination and collaboration necessary for enabling global and integrated access to data gathered by astronomical observatories. An information system allowing such an access is called a Virtual Observatory.

The stack we develop with includes Spring 4, Java, Tomcat, Groovy, Gradle for the builds, Postgresql, the H2 in-memory database and Elastic Search (we started with SOLR). We use Jenkins for Continuous Integration, Jira for Configuration and Issue management, Git and Atlassian Stash and Atlassian Source Tree for version control, and Atlassian Confluence for documentation.

The team works using Agile software engineering methodologies and all developers have taken turns as Scrum Master.

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Open source Feb 2013 → Dec 2014 (1 year, 11 months)

JavaFx implementation of my very own (: ) portfolio management tool. Creating as enjoying JavaFx and want to play with it a bit more and I have a few stock portfolio ideas I'd like to play with.

JavaFx implementation of my very own (: ) portfolio management tool. Creating as enjoying JavaFx and want to play with it a bit more and I have a few stock portfolio ideas I'd like to play with.

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Position May 2014 → Jul 2014 (3 months)
Java / Javascript Web Developer (Contractor) at Geoscience Australia

In my contract with Geoscience Australia (GA) I was a Java / Javascript Web Developer on the Boreholes project. The Boreholes project is a greenfield project for the consolidation of multiple disparate data sources (Oracle DB, Access DB, Spreadsheet) into the one Oracle database. As well as maintaining the one data source this project helps the business units in GA standardise their boreholes practices and share data (since boreholes often change from being single to multi-purpose). Boreholes also includes a UI for operators to create and read new boreholes.

A borehole is a narrow shaft bored in the ground for purposes involving petroleum, minerals, gas, aquifer, geothermal, exploration or investigation. Geoscience Australia maintains a large database of meta information and physical samples.

In this role I was responsible for developing the client-UI (using AngualrJS, JQuery, HTML5, CSS3, Bootstrap, Sass, WCAG, Yeoman scaffolding, Grunt, nodejs, Karma and Jasmine), the API development for RESTful web services to communicate with the middle tier, assisting with the development of RESTful web services using Spring, assisting with the architecture (including working within the enterprise architecture), application design and the initial stages of ETL for consolidating the data. I worked with a team including Enterprise Architects, a Project Manager, a Business Analyst, a DBA and a primary Java EE developer.

In my contract with Geoscience Australia (GA) I was a Java / Javascript Web Developer on the Boreholes project. The Boreholes project is a greenfield project for the consolidation of multiple disparate data sources (Oracle DB, Access DB, Spreadsheet) into the one Oracle database. As well as maintaining the one data source this project helps the business units in GA standardise their boreholes practices and share data (since boreholes often change from being single to multi-purpose). Boreholes also includes a UI for operators to create and read new boreholes.

A borehole is a narrow shaft bored in the ground for purposes involving petroleum, minerals, gas, aquifer, geothermal, exploration or investigation. Geoscience Australia maintains a large database of meta information and physical samples.

In this role I was responsible for developing the client-UI (using AngualrJS, JQuery, HTML5, CSS3, Bootstrap, Sass, WCAG, Yeoman scaffolding, Grunt, nodejs, Karma and Jasmine), the API development for RESTful web services to communicate with the middle tier, assisting with the development of RESTful web services using Spring, assisting with the architecture (including working within the enterprise architecture), application design and the initial stages of ETL for consolidating the data. I worked with a team including Enterprise Architects, a Project Manager, a Business Analyst, a DBA and a primary Java EE developer.

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Open source Feb 2013 → May 2014 (1 year, 3 months)

This is a job I was doing for a mate who wanted help with a timeline dropdown that controls a calendar view and the chart that corresponds to those dates. For his JavaFX application.

This is a job I was doing for a mate who wanted help with a timeline dropdown that controls a calendar view and the chart that corresponds to those dates. For his JavaFX application.

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Position May 2013 → Dec 2013 (8 months)
Java Software Engineer (Contractor) at CSIRO (Commonwealth Scientific and Industrial Research Organisation)

In my role at the Commonwealth Scientific and Industrial Research Organisation, I was responsible for:

  • Rewriting the ESA “Emergency Situational Awareness” J2EE web application in Java EE 7 adding unit and integration testing (where none existed previously) (Junit, Mockito and Jboss Arquillian)
  • Implementing RESTful web services APIs to expose the CSIRO's Emergency Situation Awareness application services;
  • The development of JSF web applications as a front-end; The development of Java and Javascript (JQuery) libraries for clients to use at site installations;
  • The use of Open Street Maps with OpenLayers Javascript framework for geolocation mapping;
  • Oracle 11 DB and MySQL backends
  • JMS 1.1 ApacheMQ maintenance and JMS 2 upgrade investigations
  • Course development and the training of CSIRO staff in Java EE 6+ and the architecture of the new system;
  • Course development and the training of CSIRO staff in how to follow test driven development practices, and how to write unit and integration tests;
  • Workshop developed and conducted with the CSIRO staff to teach and enable them to add further unit and integration tests;
  • Configuring a modern development environment with issue tracker, wiki and git clients. The provision of on-the-job training with CSIRO staff in the use of this environment;
  • Technologies: Jquery, Java EE 7, EJB 3.2, CDI 1.1, JPA 2.1 & EclipseLink 2.5, JSF 2.2, JSON-P, JAX-RS 1.1, Glassfish 4, git, Eclipse IDE (Juno), Maven 3, Oracle 11g, Arquillian;
  • Initial trials with Oracle Web Logic as a replacement Application Server for Oracle Glassfish, since Glassfish is losing its commercial support as of November 2013;
  • Ported Spring Framework REST Authentication web application that included extensive unit and integration tests to Java EE

The existing J2EE application was an Ant driven collection of HTTPServlets with JDBC SQL connections to an Oracle 11g backend. As part of my redevelopment of this I created a completely new architecture with multiple Maven 3 modules. The previously untested business logic was incorporated into the system along with unit and integration tests to verify the expected behaviour. I employed clean code techniques such as polymorphism instead of switches and breaking long methods into many smaller manageable (and testable) methods.

The Emergency Situational Awareness (ESA) application is used by the Australian Federal and State governments, and agencies to detect, assess, summarise and report Twitter messages of interest for crisis coordination. Please see (http://www.csiro.au/Outcomes/ICT-and-Services/emergency-situation-awareness.aspx)[http://www.csiro.au/Outcomes/ICT-and-Services/emergency-situation-awareness.aspx] for more details.

In my role at the Commonwealth Scientific and Industrial Research Organisation, I was responsible for:

  • Rewriting the ESA “Emergency Situational Awareness” J2EE web application in Java EE 7 adding unit and integration testing (where none existed previously) (Junit, Mockito and Jboss Arquillian)
  • Implementing RESTful web services APIs to expose the CSIRO's Emergency Situation Awareness application services;
  • The development of JSF web applications as a front-end; The development of Java and Javascript (JQuery) libraries for clients to use at site installations;
  • The use of Open Street Maps with OpenLayers Javascript framework for geolocation mapping;
  • Oracle 11 DB and MySQL backends
  • JMS 1.1 ApacheMQ maintenance and JMS 2 upgrade investigations
  • Course development and the training of CSIRO staff in Java EE 6+ and the architecture of the new system;
  • Course development and the training of CSIRO staff in how to follow test driven development practices, and how to write unit and integration tests;
  • Workshop developed and conducted with the CSIRO staff to teach and enable them to add further unit and integration tests;
  • Configuring a modern development environment with issue tracker, wiki and git clients. The provision of on-the-job training with CSIRO staff in the use of this environment;
  • Technologies: Jquery, Java EE 7, EJB 3.2, CDI 1.1, JPA 2.1 & EclipseLink 2.5, JSF 2.2, JSON-P, JAX-RS 1.1, Glassfish 4, git, Eclipse IDE (Juno), Maven 3, Oracle 11g, Arquillian;
  • Initial trials with Oracle Web Logic as a replacement Application Server for Oracle Glassfish, since Glassfish is losing its commercial support as of November 2013;
  • Ported Spring Framework REST Authentication web application that included extensive unit and integration tests to Java EE

The existing J2EE application was an Ant driven collection of HTTPServlets with JDBC SQL connections to an Oracle 11g backend. As part of my redevelopment of this I created a completely new architecture with multiple Maven 3 modules. The previously untested business logic was incorporated into the system along with unit and integration tests to verify the expected behaviour. I employed clean code techniques such as polymorphism instead of switches and breaking long methods into many smaller manageable (and testable) methods.

The Emergency Situational Awareness (ESA) application is used by the Australian Federal and State governments, and agencies to detect, assess, summarise and report Twitter messages of interest for crisis coordination. Please see (http://www.csiro.au/Outcomes/ICT-and-Services/emergency-situation-awareness.aspx)[http://www.csiro.au/Outcomes/ICT-and-Services/emergency-situation-awareness.aspx] for more details.

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Open source Oct 2012 → Oct 2013 (1 year, 1 month)

Watering system control hub written in JAVA EE 6

Watering system control hub written in JAVA EE 6

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Position Aug 2010 → Jun 2012 (1 year, 11 months)
Senior Software Engineer at Orion Health

In this role I worked in a team of five developers with product managers, project managers, testers and documenters. We coordinated development activities using an agile scrum process. We developed the Breast Screening product in use by New Zealand and New South Wales with the ACT and Tasmania to follow shortly.

The Breast Screening product is a Web Application for managing the breast screening workflow from booking screening appointments, linking with the mammograms to booking and holding assessments of the mammograms. It also has a client component called the Public Web Module that allows user's to book and manage appointments from their own homes. It used RESTful web services to communicate with the server.

The Breast Screening system is a very complex product using over 4000 Java classes, Javascript, HTML and Cascading Style Sheets.

In this role I worked in a team of five developers with product managers, project managers, testers and documenters. We coordinated development activities using an agile scrum process. We developed the Breast Screening product in use by New Zealand and New South Wales with the ACT and Tasmania to follow shortly.

The Breast Screening product is a Web Application for managing the breast screening workflow from booking screening appointments, linking with the mammograms to booking and holding assessments of the mammograms. It also has a client component called the Public Web Module that allows user's to book and manage appointments from their own homes. It used RESTful web services to communicate with the server.

The Breast Screening system is a very complex product using over 4000 Java classes, Javascript, HTML and Cascading Style Sheets.

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Position Jan 1999 → Aug 2010 (11 years, 8 months)
Software Engineer at Boeing Defence Australia

Main projects and activities

  • S1000D - For the AEWC (Advanced Early Warning & Control aircraft) project I helped write the S1000D Rough Order of Magnitude (ROM) for converting Boeing's AEWC ATA publications to S1000D. This formed of the business case for moving to S1000D. S1000D is an international specification for the procurement and production of technical publications. I wrote S1000D business Rules, performed server installation and configuration, and wrote translations from ATA SGML & XML to S1000D XML. I scoped alternate solutions for interactive wiring diagrams in S1000D publications and then implemented and configured the chosen one.
  • LSAR to S1000D conversion - I lead the project to generate S1000D Technical Publications from a Logistics Support Analysis Report (LSAR) database. The purpose of this was to enable single-source publishing from the LSAR database rather than have a separate XML format containing the same information.
  • AEWC ATA publishing system - I was the architect, technical lead, senior developer and team lead (4 developers) for the AEWC ATA publishing system. It published SGML (instances of 8 largely distinct DTDs) and graphics from a Contenta CMS (Content Management System) to PDF using XPP as the publishing engine. The output was to 16 mostly distinct formats (front matter, body matter and various other speciality content). The code is made up of 100,000 lines of Bash shell, Perl, Java SE, XSLT and Omnimark and ran on Unix (Solaris) servers. The system enabled the project to publish over 120,000 pages.
    ATA is the Air Transport Association and is a standard for commercial, private and defence aircraft platforms. I started the project in 2002 as the sole developer. I helped recruit a team and lead them to complete the system on schedule in October 2009.
  • Team Lead - As team lead I was responsible for team employment, the team's task assignments, performance management plans and career guidance. The team worked across 6 projects for 5 different business divisions (F111, AP3C, F/A-18, AEWC, Business Development). I also setup the RCS, CVS and Subversion Version Control Systems, JIRA issue tracker and wrote process manuals and work instructions for our development environment. I adopted the Boeing specified software development methodologies including Waterfall, RUP and Iterative spiral development. I helped investigate using Agile (Scrum) and Lean 10x as part of my work with the Software Engineering Capability Council and I introduced these into my team's work flow. For this I trained the team in Test Driven Development.
  • F/A-18 Tools - I converted and configured the St Louis XPP Publishing System native documents to work in our Australian environment to enable Australia to author, maintain and publish the Australian F/A-18 (legacy and hornet) manuals.
  • 5629a publishing system – My first major task in 1999 was to write the 5629a publishing system to publish SGML and graphics to generate F111 and AP3C Orion platform manuals in PDF. The 5629a system runs on Solaris and is composed of C-Shell, Perl and Omnimark scripts. I completed this system on time to meet the schedule. I continued to maintain the system until it was decommissioned in 2009 (when the F111's stopped flying and the AP3C customer moved the publications to Framemaker to support new requirements).
  • Loose leaf publishing - I set up a loose leaf publishing environment in the 5629a system to publish amendments allowing only changed pages to be printed.
  • Application Support – I worked as part of Management Information Systems, Boeing Defence Australia's Information Technology (IT) department and as part of that group we were required to perform application support for the applications that were part of our ca...

    Main projects and activities

    • S1000D - For the AEWC (Advanced Early Warning & Control aircraft) project I helped write the S1000D Rough Order of Magnitude (ROM) for converting Boeing's AEWC ATA publications to S1000D. This formed of the business case for moving to S1000D. S1000D is an international specification for the procurement and production of technical publications. I wrote S1000D business Rules, performed server installation and configuration, and wrote translations from ATA SGML & XML to S1000D XML. I scoped alternate solutions for interactive wiring diagrams in S1000D publications and then implemented and configured the chosen one.
    • LSAR to S1000D conversion - I lead the project to generate S1000D Technical Publications from a Logistics Support Analysis Report (LSAR) database. The purpose of this was to enable single-source publishing from the LSAR database rather than have a separate XML format containing the same information.
    • AEWC ATA publishing system - I was the architect, technical lead, senior developer and team lead (4 developers) for the AEWC ATA publishing system. It published SGML (instances of 8 largely distinct DTDs) and graphics from a Contenta CMS (Content Management System) to PDF using XPP as the publishing engine. The output was to 16 mostly distinct formats (front matter, body matter and various other speciality content). The code is made up of 100,000 lines of Bash shell, Perl, Java SE, XSLT and Omnimark and ran on Unix (Solaris) servers. The system enabled the project to publish over 120,000 pages.
      ATA is the Air Transport Association and is a standard for commercial, private and defence aircraft platforms. I started the project in 2002 as the sole developer. I helped recruit a team and lead them to complete the system on schedule in October 2009.
    • Team Lead - As team lead I was responsible for team employment, the team's task assignments, performance management plans and career guidance. The team worked across 6 projects for 5 different business divisions (F111, AP3C, F/A-18, AEWC, Business Development). I also setup the RCS, CVS and Subversion Version Control Systems, JIRA issue tracker and wrote process manuals and work instructions for our development environment. I adopted the Boeing specified software development methodologies including Waterfall, RUP and Iterative spiral development. I helped investigate using Agile (Scrum) and Lean 10x as part of my work with the Software Engineering Capability Council and I introduced these into my team's work flow. For this I trained the team in Test Driven Development.
    • F/A-18 Tools - I converted and configured the St Louis XPP Publishing System native documents to work in our Australian environment to enable Australia to author, maintain and publish the Australian F/A-18 (legacy and hornet) manuals.
    • 5629a publishing system – My first major task in 1999 was to write the 5629a publishing system to publish SGML and graphics to generate F111 and AP3C Orion platform manuals in PDF. The 5629a system runs on Solaris and is composed of C-Shell, Perl and Omnimark scripts. I completed this system on time to meet the schedule. I continued to maintain the system until it was decommissioned in 2009 (when the F111's stopped flying and the AP3C customer moved the publications to Framemaker to support new requirements).
    • Loose leaf publishing - I set up a loose leaf publishing environment in the 5629a system to publish amendments allowing only changed pages to be printed.
    • Application Support – I worked as part of Management Information Systems, Boeing Defence Australia's Information Technology (IT) department and as part of that group we were required to perform application support for the applications that were part of our ca...