Picking Winners: Indicium Dynamic's input to the Tasmanian Government Advanced Technology Industries Strategy

The Tasmanian Government is currently seeking feedback on its Advanced Technology Industries Strategy Public Consultation (link here).

As Indicium Dynamics see's itself as a part of, and a supporter of various 'Advanced Technology' companies in Tasmania and beyond, we have provided our input into that public consultation, a copy of which is below.

What advanced technologies should be the focus of the strategy?

The Advanced Technology Industries Strategy should prioritize transformative technologies that align with Tasmania’s unique advantages and address key challenges in innovation, productivity, and sustainability. These technologies should be selected to build the infrastructure and capabilities necessary for local businesses to thrive and compete globally.

1. Artificial Intelligence (AI)

AI should be a cornerstone of the strategy due to its broad applications across industries.

Key focus areas include:

• Predictive Analytics: To improve operational efficiency and resource management.

• Automation and Workflow Optimization: Increasing productivity and reducing costs in manufacturing, logistics, and agriculture.

• Data Integration: Leveraging AI for real-time decision-making and insights across sectors.

2. Internet of Things (IoT)

IoT technologies provide the foundation for real-time monitoring and management of physical assets and environments.

Priorities include:

• Connected Infrastructure: For agriculture, forestry, energy, and logistics.

• Environmental Monitoring: Enabling better resource management and disaster resilience.

3. Edge and Distributed Computing

These technologies enable efficient data processing closer to the source, which is essential for Tasmania’s remote and regional areas.

• Applications in Remote Areas: Supporting industries like energy, environmental monitoring, and logistics.

• Infrastructure Development: Building out the connectivity and systems required for efficient data processing and storage.

4. Autonomous Systems

Automation and autonomy are essential to improving safety and efficiency across industries.

Examples include:

• Drones and Robotics: For agriculture, resource management, and disaster response.

• Logistics Automation: Streamlining supply chains in Tasmania’s export-driven economy.

5. Renewable Energy Technologies:

Given Tasmania’s focus on renewable energy, advanced technologies in this sector are critical.

• Smart Energy Grids: Supporting decentralized, efficient power distribution.

• Energy Storage Innovations: To enhance Tasmania’s energy export potential.

6. Advanced Manufacturing and Additive Technologies:

Investing in advanced manufacturing will strengthen Tasmania’s ability to produce high-value products.

• High-Precision Tools: Supporting local industries like defense, maritime, and health.

• 3D Printing and Prototyping: Driving innovation and reducing time to market for new ideas.

7. Advanced Trades and Skills Development Technologies:

The strategy must emphasize practical, vocational technologies to upskill the workforce.

• Immersive Training Technologies: AR/VR tools for advanced trades.

• Automation Tools for Trades: Improving productivity and efficiency in skilled labor sectors.

Strategic Approach:

Tasmania should focus on building the infrastructure and systems that businesses need to succeed. Rather than focusing solely on academic pathways, the strategy should invest in business-led initiatives to drive innovation and workforce development.

This includes:

• Supporting entrepreneurs and risk-takers, who create the jobs and economic growth Tasmania needs.

• Developing infrastructure that supports global competitiveness, such as high-speed connectivity and testing facilities.

• Encouraging collaboration between research institutions, businesses, and government to solve real-world problems.

By focusing on these technologies, Tasmania can position itself as a hub for advanced industries while ensuring the development of practical solutions that directly benefit the state’s economy and workforce.

What are Tasmania’s strengths and capabilities? How can we build on these?

Tasmania has unique strengths and capabilities that position it to excel in the development and adoption of advanced technologies. However, leveraging these advantages requires strategic investments in infrastructure, workforce, and business-led innovation.

1. Geographic and Environmental Advantages:

Tasmania's remote and diverse environments, including the Southern Ocean and Antarctic region, make it an ideal testing ground for technologies designed for extreme or challenging conditions.

Clean energy resources, such as hydroelectricity and wind power, position Tasmania as a leader in renewable energy innovation.

How to Build on This:

• Develop dedicated testbeds and innovation hubs for remote sensing, renewable energy, and autonomous systems tailored to extreme environments.

• Expand renewable energy infrastructure and integrate advanced smart grid technologies to ensure Tasmania can export both energy and expertise.

2. Thriving Local Businesses:

Tasmania is home to businesses that "punch above their weight," competing globally and building world-class products and services. These businesses are engines of job creation and economic growth.

How to Build on This:

• Establish a fund (similar to Breakthrough Victoria) to support these businesses in scaling up and training the next generation of skilled workers. Don't be afraid to pick winners.

• Foster industry collaboration through incentives for joint ventures, creating synergies between local businesses and national/international partners.

3. Research and Knowledge Resources:

Tasmania has a strong research foundation, particularly in Antarctic science, marine studies, and environmental conservation.

How to Build on This:

• Redirect funding to enable businesses to purchase R&D services and operationalize research outputs into commercial products.

• Encourage research institutions to collaborate with businesses on market-driven innovation, ensuring research aligns with industry needs.

4. Tourism and Natural Capital:

Tasmania's global reputation as a clean, natural destination offers opportunities to integrate advanced technologies into tourism and environmental management.

How to Build on This:

• Invest in digital immersion technologies, such as AR/VR, to enhance tourism experiences.

• Utilize IoT and AI to monitor and manage Tasmania's biodiversity and natural resources, showcasing sustainable practices globally.

5. Strong Regional and Community Focus:

Tasmania’s smaller population fosters close-knit communities, making it easier to pilot new technologies and implement regional development initiatives.

How to Build on This:

• Pilot community-scale projects for renewable energy, smart agriculture, and AI-driven resource management.

• Invest in digital connectivity to ensure regional areas can participate fully in advanced technology initiatives.

6. Existing Industry Expertise:

Sectors like advanced manufacturing, maritime industries, and agriculture have strong foundations that can integrate advanced technologies to boost productivity and innovation.

How to Build on This:

• Develop sector-specific technology roadmaps to guide innovation efforts in these industries.

• Provide training programs tailored to advanced skills in these sectors, such as automation, AI, and robotics.

Strategic Vision:

Tasmania’s strengths are amplified when aligned with a forward-thinking strategy that:

• Empowers businesses to lead innovation and workforce training efforts.

• Prioritizes practical infrastructure investments, such as high-speed connectivity, testing facilities, and digital tools for regional areas.

• Positions Tasmania as a global leader in technologies suited for polar, remote, and extreme environments.

What advanced technology applications will have the highest impact on your organisation/industry?

The highest-impact advanced technology applications are those that drive productivity, sustainability, and resilience while addressing real-world challenges. In our industry, which focuses on technology integration for environmental monitoring, fire detection, and data-driven decision-making, the following applications are transformative:

1. Internet of Things (IoT) for Environmental Monitoring

IoT devices can provide real-time telemetry from remote and regional areas, supporting applications such as biodiversity tracking, fire detection, and natural resource management.

These systems enable better data-driven decision-making by delivering granular insights into environmental conditions.

Impact:

• Enhances the ability to respond quickly to environmental risks such as wildfires or species decline.

• Reduces operational costs by automating monitoring processes across large landscapes.

2. AI and Machine Learning for Predictive Analytics

AI-powered systems can process large datasets to predict trends, identify anomalies, and provide actionable insights.

Key applications include fire risk prediction, biodiversity management, and infrastructure maintenance.

Impact:

• Improves operational efficiency and accuracy, enabling proactive rather than reactive management.

• Reduces false positives and enhances reliability in critical decision-making scenarios.

3. Edge Computing for Remote Areas

Distributed computing systems process data at the source, reducing latency and reliance on high-bandwidth connectivity in remote locations.

Impact:

• Enables real-time processing and decision-making in areas with limited infrastructure.

• Reduces the cost and complexity of transmitting large amounts of data to central servers.

4. Autonomous Systems for Inspection and Response

Autonomous technologies, including drones and robotic systems, are critical for tasks such as surveying remote landscapes, investigating anomalies, or responding to emergencies.

Impact:

• Enhances safety by reducing human exposure to hazardous environments.

• Increases efficiency and coverage for monitoring large or difficult-to-access areas.

5. Advanced Sensing Technologies

Innovations in optical, thermal, and environmental sensors allow for more accurate detection of risks like fire or environmental degradation.

Impact:

• Expands the scope of monitoring capabilities, providing early warnings and reducing damage caused by delayed detection.

• Supports compliance and reporting requirements for environmental stewardship.

6. Renewable Energy Integration and Smart Grids

Decentralized energy systems powered by renewables, paired with smart grid technology, can improve energy security and sustainability.

Impact:

• Reduces costs and environmental impact by powering remote monitoring systems with clean energy.

• Ensures resilience in remote operations, even under extreme conditions.

7. Digital Twin Technology

Digital twins replicate physical systems in virtual environments, allowing for advanced simulations and planning.

Impact:

• Enables better resource allocation and risk assessment.

• Supports efficient planning for disaster response, infrastructure development, and environmental conservation.

Strategic Vision:

The highest-impact applications are those that provide practical solutions to Tasmania’s challenges while enabling industries to innovate and grow. These technologies empower businesses like ours to deliver better outcomes for customers, improve productivity, and build resilience in the face of environmental and economic uncertainties.

By focusing on these applications, Tasmania can foster a competitive advantage in industries that rely on advanced monitoring, automation, and data integration.

What are the key barriers to advanced technology adoption for your organisation/industry? How can we address these barriers?

The adoption of advanced technologies in our industry faces several barriers. Overcoming these requires a combination of targeted investments, infrastructure development, and policy changes that enable businesses to innovate and scale effectively.

1. Access to Capital

Barrier:

Advanced technology systems require significant upfront investment in research, development, and deployment. Small-to-medium enterprises (SMEs) often struggle to access the funding needed for these initiatives.

Solution:

Establish a dedicated fund, modeled on initiatives like Breakthrough Victoria, that directly supports Tasmanian businesses in scaling their operations, training their workforce, and adopting cutting-edge technologies.

2. Skill Shortages

Barrier:

The local workforce lacks the specialized skills required to develop, deploy, and maintain advanced technologies.

Solution:

Fund businesses to provide on-the-job training and apprenticeships in advanced trades, data science, and AI.

Incentivize industry-led training programs and partnerships with education providers to ensure practical, job-ready outcomes.

3. Overemphasis on Academic Pathways

Barrier:

Universities often focus on theoretical research rather than equipping graduates with the practical skills needed in industry. Additionally, funding is disproportionately allocated to academic institutions.

Solution:

Redirect funding to industry-led initiatives where businesses train and upskill workers while operationalizing research into commercial products.

Encourage collaboration between research institutions and businesses to solve real-world challenges, ensuring research leads to practical outcomes.

4. Lack of Local Collaboration and Ecosystem Support

Barrier:

Fragmented efforts between businesses, researchers, and government reduce opportunities for cross-sectoral innovation and resource sharing.

Solution:

Develop innovation hubs and clusters focused on priority sectors, such as renewable energy, environmental monitoring, and manufacturing. Foster collaboration through funding incentives for joint ventures and public-private partnerships.

7. Market Awareness and Scale

Barrier:

SMEs often lack the visibility and scale to compete in global markets or attract investment.

Solution:

Invest in marketing Tasmania as a hub for advanced technology innovation.

Support SMEs in attending global trade missions and connecting with national and international partners. Put our businesses on the world stage.

Strategic Vision:

Addressing these barriers requires a bold, business-focused approach that empowers local companies to lead Tasmania’s technology adoption. By prioritizing practical infrastructure and business driven workforce development, the state can create an environment where advanced technologies thrive, benefiting both the economy and the community.

What are the major challenges to advanced technology research, development and commercialisation in Tasmania?  How can we address these challenges?

The research, development, and commercialization of advanced technologies in Tasmania face several systemic challenges. Overcoming these requires targeted support for businesses, a stronger emphasis on practical outcomes, and an ecosystem that fosters innovation and entrepreneurship.

1. Fragmentation Between Research and Commercialisation

Challenge:

There is a gap between academic research outputs and the operational needs of businesses. Research institutions often prioritize publications over practical applications, leaving businesses to navigate commercialization independently.

Solution:

Directly fund businesses to purchase R&D services, ensuring research aligns with real-world applications.

Incentivize universities and research institutions to work closely with industry, focusing on commercialization-ready outputs.

2. Limited Access to Funding

Challenge:

Many businesses, especially SMEs, struggle to secure funding for high-risk, high-reward technology development and commercialization projects.

Solution:

Establish a state-backed advanced technology investment fund to provide grants, loans, and equity support for businesses working on transformative technologies.

Offer asymmetric funding for collaborative projects between industry and academia to encourage co-development of solutions.

3. Talent Retention and Development

Challenge:

Tasmania struggles to attract and retain highly skilled workers in advanced technology fields due to limited opportunities and high relocation costs.

Solution:

Partner with local businesses to develop industry-led training programs, such as advanced apprenticeships and vocational pathways.

4. Insufficient Infrastructure

Challenge:

Tasmania lacks the digital infrastructure and testing facilities necessary for the development and scaling of advanced technologies.

Solution:

Invest in infrastructure like high-speed internet, edge computing systems, and state-of-the-art testbeds for emerging technologies.

Establish shared innovation spaces where businesses can access cutting-edge equipment and facilities at a lower cost.

5. Narrow Market Access

Challenge:

Businesses in Tasmania often face difficulties accessing broader national and international markets due to geographical isolation and limited industry networks.

Solution:

Develop programs to connect Tasmanian businesses with global markets, such as trade missions and international partnerships.

Promote Tasmania’s capabilities in advanced technologies on national and global stages to attract investors and partners.

6. Over-Reliance on Academic Institutions

Challenge:

Current funding models heavily favor universities, which are not always equipped to lead commercialization efforts or train the workforce needed for advanced industries.

Solution:

Redirect significant funding to businesses to drive innovation and operationalize research.

Make University funding dependent on academic institutions collaborating with local industry partners on projects that deliver tangible economic and social outcomes.

7. Small Scale of Local Demand

Challenge:

Tasmania’s population and economy are small, limiting the local market for advanced technologies.

Solution:

Focus on developing export-ready technologies that can scale to meet demand outside Tasmania.

Leverage Tasmania’s unique environment as a testing ground for technologies designed for remote, extreme, or isolated conditions, attracting global interest.

Strategic Vision:

Addressing these challenges requires a paradigm shift that places businesses, entrepreneurs, and practical outcomes at the center of Tasmania’s technology strategy. By aligning funding, infrastructure, and policy to support commercialization, Tasmania can build a thriving advanced technology ecosystem that competes on a global scale.

What infrastructure is critical to advanced technology development and adoption?

Critical infrastructure for advanced technology development and adoption must be designed to enable business-led innovation. The focus should be on empowering industry to develop and commercialize technologies while creating an environment that attracts private investment and supports scalable growth.

Infrastructure investments should prioritize picking winners and equipping businesses with the tools and resources they need to succeed.

1. Business-Driven Digital Connectivity

Critical Need:

High-speed, reliable connectivity to support IoT, AI, and other advanced technologies, particularly in remote and regional areas.

Why It Matters:

Businesses need robust digital infrastructure to deploy real-time monitoring, automation, and data-driven decision-making systems.

Solution:

Incentivize private investment in digital infrastructure, ensuring connectivity is developed in partnership with businesses that depend on it.

Support businesses in co-developing edge computing and satellite communication systems tailored to industry needs.

2. Industry-Led Testing and Demonstration Facilities

Critical Need:

Access to facilities where businesses can prototype, test, and scale their technologies in real-world conditions.

Why It Matters:

Enables businesses to reduce risk, validate solutions, and accelerate commercialization.

Solution:

Provide funding to businesses to develop their own testing and demonstration facilities or to collaborate with others in shared spaces.

Prioritize industry clusters where businesses drive facility development and benefit directly from its use.

3. Private Data Storage and Processing Infrastructure

Critical Need:

Scalable and secure data infrastructure that businesses can own or directly access to support AI, IoT, and advanced analytics.

Why It Matters:

Decentralized infrastructure reduces latency, enhances security, and ensures that businesses retain control over their data.

Solution:

Offer matched funding for businesses to establish or expand their own data centers and edge computing networks.

Encourage private investment in localized data infrastructure that aligns with industry needs.

4. Renewable Energy Infrastructure to Support Industry

Critical Need:

Sustainable and decentralized energy systems to power advanced technologies while reducing environmental impact.

Why It Matters:

Businesses require affordable, reliable energy to run energy-intensive operations such as data processing and manufacturing.

Solution:

Partner with businesses to co-develop renewable energy infrastructure and energy storage systems.

Fund industry-led smart grid initiatives to optimize energy use for advanced technology operations.

5. Advanced Manufacturing Facilities Run by Industry

Critical Need:

Access to high-precision manufacturing capabilities, such as additive manufacturing and robotics, controlled and operated by businesses.

Why It Matters:

Local production capacity strengthens supply chains, reduces reliance on imports, and enhances competitiveness.

Solution:

Provide grants or loans to businesses to invest in advanced manufacturing capabilities that directly benefit their operations.

Support the development of private, shared manufacturing hubs where businesses collaborate and drive innovation.

6. Workforce Development Infrastructure Within Businesses

Critical Need:

Hands-on training programs and facilities that equip workers with practical, job-ready skills, driven by business needs.

Why It Matters:

Businesses are best positioned to identify skill gaps and provide targeted training for their workforce.

Solution:

Redirect funding to businesses to establish their own training programs and facilities, focusing on advanced trades and technology skills.

Support apprenticeships and work-integrated learning programs directly within companies.

Strategic Vision:

Infrastructure investment should prioritize industry-led initiatives rather than publicly owned or university-driven projects.

Businesses are the true engines of innovation, and empowering them to lead will ensure that Tasmania’s infrastructure supports practical outcomes, scalability, and global competitiveness. By picking winners and backing them, the government can create a thriving ecosystem that benefits the entire economy.

What skills and training are most needed to support the development and deployment of advanced technologies?

To support the development and deployment of advanced technologies, Tasmania needs a workforce that combines practical skills with a strong foundation in emerging technologies.

The focus should be on business-led training initiatives that directly address the needs of industries driving innovation and growth.

1. Advanced Trades and Technical Skills

Need:

Highly skilled tradespeople equipped to work with automation, robotics, IoT, and advanced manufacturing technologies.

Why It Matters:

These hands-on roles are critical for deploying and maintaining advanced technologies in industries like energy, forestry, and manufacturing.

Solution:

Develop advanced apprenticeships tailored to emerging technologies, integrating digital tools like AR/VR for training.

Fund industry-driven programs to train tradespeople in robotics, mechatronics, and digital fabrication.

2. Data Science and AI Development

Need:

Expertise in analyzing and operationalizing data to drive decision-making and efficiency gains.

Why It Matters:

AI and data science are foundational to technologies like predictive analytics, automation, and digital twins.

Solution:

Support on-the-job training programs for data science and AI development, led by businesses.

Provide incentives for businesses to upskill employees in advanced analytics, machine learning, and AI toolkits.

3. IoT and Sensor Integration

Need:

Specialists who can design, deploy, and manage IoT systems and integrate sensor technologies into operational workflows.

Why It Matters:

IoT is a cornerstone of real-time monitoring systems used in environmental management, energy, and logistics.

Solution:

Train technicians in IoT hardware installation, calibration, and troubleshooting through industry-led vocational programs.

Develop courses focused on practical IoT applications, co-designed by businesses and training providers.

4. System Integration and Cybersecurity

Need:

Skills to integrate diverse technologies and ensure their security against evolving cyber threats.

Why It Matters:

As systems become more interconnected, integration and cybersecurity are essential for resilience and reliability.

Solution:

Establish business-led training programs in system integration and secure deployment of advanced technologies.

Provide grants for businesses to upskill employees in emerging cybersecurity frameworks and tools.

5. Leadership and Entrepreneurship

Need:

Business leaders and entrepreneurs who can identify opportunities, take risks, and scale innovative technologies.

Why It Matters:

Technology adoption depends on visionary leaders who understand both market needs and technical potential.

Solution:

Fund entrepreneurship programs within businesses to develop leadership skills specific to technology industries.

Support mentorship initiatives connecting experienced entrepreneurs with startups and SMEs.

6. Interdisciplinary and Cross-Sector Knowledge

Need:

Workers who can combine technical expertise with domain-specific knowledge, such as environmental science, agriculture, or manufacturing.

Why It Matters:

Advanced technologies often require industry-specific adaptations for real-world impact.

Solution:

Promote dual-discipline training programs that bridge technology with key industries, e.g., AI for forestry or IoT for agriculture.

Incentivize businesses to hire and train workers with complementary skill sets.

7. Focus on Practical, Business-Led Training

Need:

Training programs designed and delivered by businesses, not institutions disconnected from industry realities.

Why It Matters:

Businesses are best positioned to identify emerging skills gaps and provide hands-on training.

Solution:

Redirect funding from universities to businesses to establish their own training programs.

Support co-designed training initiatives where businesses work directly with local training organizations to create job-ready workers.

Strategic Vision:

Tasmania’s workforce strategy should focus on practical, business-led training programs that develop real-world skills needed for deploying advanced technologies. By investing in advanced trades, interdisciplinary expertise, and industry-specific knowledge, the state can build a workforce that drives innovation and supports economic growth.

What are the barriers to training, attracting and retaining skilled technology workers? How can these be addressed?

Tasmania faces several barriers to building and retaining a skilled workforce in advanced technologies. These challenges can be addressed by prioritizing business-led workforce development, improving incentives for skilled professionals, and creating a thriving innovation ecosystem that makes Tasmania an attractive destination for technology workers.

1. Skills Mismatch from Academic Pathways

Barrier:

Many graduates from academic programs lack the practical, job-ready skills needed by businesses. Institutions often focus on theory over application, leaving businesses to retrain employees.

Solution:

Redirect funding from traditional academic programs to business-led training initiatives, such as advanced apprenticeships and vocational programs.

Incentivize businesses to develop tailored, hands-on training aligned with their specific technology needs.

2. Limited Local Opportunities

Barrier:

Skilled workers often leave Tasmania due to a perceived lack of career progression and opportunities in the advanced technology sector.

Solution:

Pick Winners and invest in high-growth local businesses that can offer long-term career opportunities and progression pathways.

Promote Tasmania as a hub for cutting-edge technology industries, emphasizing its unique opportunities in renewable energy, environmental monitoring, and remote sensing.

3. Difficulty Attracting Talent to Regional Areas

Barrier:

The cost and logistics of relocating to Tasmania, combined with limited housing and infrastructure in regional areas, make it challenging to attract top talent.

Solution:

Offer relocation incentives, such as subsidies for moving expenses and housing assistance for skilled workers and their families.

Improve regional digital connectivity and infrastructure to support remote work and attract professionals seeking a balance between lifestyle and career.

4. Lack of Specialized Training Programs

Barrier:

There are insufficient local programs focused on advanced trades, AI, IoT, and other emerging fields, leaving a gap in Tasmania’s workforce.

Solution:

Establish business-led training programs in partnership with industry to address skills gaps in key sectors like AI, IoT, and advanced manufacturing.

Focus on work-integrated learning opportunities, such as internships, co-op placements, and on-the-job training programs.

5. Inadequate Support for Entrepreneurial Talent

Barrier:

Entrepreneurs and innovators often leave Tasmania for ecosystems that provide better funding, mentorship, and collaboration opportunities.

Solution:

Create entrepreneurship hubs led by local businesses to foster innovation and support startups.

Offer grants and incentives for entrepreneurs to establish and scale their businesses in Tasmania.

6. High Cost of Living Relative to Wages

Barrier:

Rising housing costs and relatively lower wages compared to mainland Australia can deter skilled workers from relocating or staying in Tasmania.

Solution:

Work with businesses to offer competitive salary packages that reflect the cost of living.

Collaborate with local councils to increase housing availability and affordability in key technology hubs.

7. Lack of Awareness About Tasmania’s Opportunities

Barrier:

Tasmania is not widely recognized as a destination for skilled technology workers.

Solution:

Develop a targeted marketing campaign to promote Tasmania as a leader in advanced technology industries, emphasizing its unique lifestyle and career opportunities.

Partner with businesses to showcase successful case studies and attract global attention to the state’s innovation ecosystem.

Strategic Vision:

The solution lies in picking winners and investing in local businesses that can drive workforce development while creating opportunities for skilled workers. By emphasizing practical training, incentivizing relocation, and building a strong narrative around Tasmania’s technology potential, the state can attract and retain the talent needed to lead in advanced industries.

In Summary

Tasmania has an incredible opportunity to position itself as a global leader in advanced technologies, leveraging its unique strengths, innovative businesses, and natural advantages. However, achieving this requires a shift in strategy to focus on empowering businesses as the engines of innovation and economic growth.

Redirect funding from institutions that focus on theoretical outcomes to industry-driven initiatives that deliver real-world impact.

Invest in business-led training programs, advanced trades, and workforce development to equip Tasmanians with practical skills and create meaningful career opportunities.

Prioritize critical infrastructure investments that directly support industry growth, such as digital connectivity, private data processing, and decentralized energy systems.

Focus on picking winners—backing the businesses and entrepreneurs that are already competing globally and driving innovation.

Build a dynamic ecosystem that attracts talent, investment, and partnerships by marketing Tasmania as a hub for cutting-edge industries.

By prioritizing businesses and fostering a culture of innovation, Tasmania can secure its place as a leader in advanced technologies and create a resilient, thriving economy for the future.

Rob Vernon

CEO

Indicium Dynamics