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Report Description

Report Description

Forecast Period

2026-2030

Market Size (2024)

USD 2.22 Billion

Market Size (2030)

USD 3.28 Billion

CAGR (2025-2030)

6.57%

Fastest Growing Segment

Lighting Systems

Largest Market

New South Wales


Market Overview

The Australia Building Automation & Control Systems Market was valued at USD 2.22 Billion in 2024 and is expected to reach USD 3.28 Billion by 2030 with a CAGR of 6.57% during the forecast period.

The Australia Building Automation & Control Systems (BACS) market is witnessing significant growth, driven by increasing demand for energy-efficient buildings, smart infrastructure development, and government regulations mandating sustainability standards. As the country continues to urbanize, commercial and residential property developers are turning to automation technologies to optimize energy consumption, reduce operational costs, and enhance occupant comfort. The BACS market in Australia integrates advanced technologies such as IoT, AI, and machine learning with traditional control systems to manage HVAC, lighting, security, and energy systems more efficiently. These systems enable real-time monitoring and control, predictive maintenance, and data-driven decision-making, contributing to both environmental goals and cost reduction.

One of the major growth catalysts for the market is the Australian government’s commitment to net-zero emissions and energy-efficiency programs. Regulatory frameworks such as the National Construction Code (NCC), Green Star ratings, and NABERS have pushed stakeholders to adopt intelligent building systems that align with environmental targets. In parallel, the private sector is increasingly investing in smart buildings to meet ESG goals and attract tenants seeking modern, sustainable spaces. The expansion of smart cities, particularly in metropolitan areas like Sydney, Melbourne, and Brisbane, is further accelerating demand for advanced building control solutions.

The market is segmented into residential, commercial, and industrial sectors, with the residential segment showing the fastest growth due to rising smart home adoption. However, the commercial segment remains the largest contributor, with office buildings, shopping malls, hospitals, and hotels heavily reliant on building automation to maintain optimal performance. Key system categories include lighting control, HVAC systems, fire and life safety, and facility management systems. Among these, HVAC automation holds a major share due to its substantial impact on energy usage and comfort levels.

Despite strong momentum, the market faces several challenges. High initial installation and integration costs can deter smaller players from adopting full-scale automation. There is also a growing concern around cybersecurity as connected systems become more prevalent. Additionally, a shortage of skilled professionals in system integration and automation engineering creates barriers to widespread adoption. However, ongoing innovation, falling technology costs, and increasing awareness of long-term savings and sustainability benefits are expected to mitigate these challenges. Overall, the Australia BACS market is set for sustained growth, driven by a convergence of regulatory support, technological innovation, and a clear shift toward smarter, greener building practices.

Key Market Drivers

Regulatory Push & Sustainability Mandates

Australia’s energy-efficiency landscape is heavily shaped by regulatory frameworks. Under National Construction Code (NCC) regulations, for example, approximately 90% of new building approvals require a NatHERS energy rating of 6 stars or above. The NABERS scheme sets benchmarks for commercial ENERGY ratings, with government tenants pushing for 4.5-star minimum ratings in leased properties. Over 550 Green Star-certified projects, representing more than 8 million m² of floor area, further demonstrate demand for automated systems that support these standards. In Melbourne’s “1200 Buildings” retrofit initiative, roughly 25% of commercial premises were retrofitted between 2008–2013, targeting a 38% energy reduction—saving over 383,000 tonnes of CO annually. Private-sector uptake of smart controls is also rising: a survey indicated 89% of building owners cited incentives as influential for automation investment, and 45% identified regulations as a major driver. These quantitative benchmarks highlight how compliance pressures are a primary catalyst for adopting BACS.

Operational Cost Savings via Energy & Maintenance Optimization

Operational inefficiencies account for a substantial portion of building overheads. In a typical commercial building, 40% of operating costs are due to energy consumption, with HVAC alone constituting 35–50% of that share. Automated HVAC technologies have demonstrated up to 20–25% energy savings in Australia and globally, while IoT-enabled LED lighting retrofits are delivering 50–65% cuts in lighting expenses. Predictive maintenance sensors can reduce technician visits by up to 30%, and smart leak-detection systems can cut water losses of 15–20% annually. Real estate firms managing large portfolios have recorded 35% faster incident response times and a 65% drop in HVAC complaints when deploying centralized automation platforms. With energy, water, and maintenance collectively representing a large cost base, these data significantly validate BACS adoption.

Occupant Experience & Tenant Demand

Tenant expectations increasingly center on comfort, wellness, and sustainability. Post-pandemic data show 68% of office tenants now select buildings based on air‑quality systems. Globally, applications that improve occupant well-being yield higher return on investment (93% ROI-positive). In smart offices, automated climate and lighting controls enhance comfort while reducing energy use by 10%, and occupancy sensors trim unused space conditioning by 28%. Health-focused improvements—such as CO-aware ventilation—can reduce energy waste by 18–22%, meeting both wellness and sustainability goals. As workplace comfort becomes a key retention driver, BACS solutions increasingly integrate occupant-centric controls that deliver measurable benefits.

IoT & AI-Driven Intelligence

Australia’s BACS market is being reshaped by connected systems. Across smart buildings worldwide, 52% of total floor area now features connected HVAC, with air-quality sensors in 48% of sites and intrusion systems in 47%, according to IoT Analytics. Investment in these systems is forecast to grow by 13% over two years. AI-driven analytics are also proving powerful: combined HVAC and intelligent shading can save up to 10% of heating/cooling energy. Buildings equipped with digital twins and fault detection see 80% fewer HVAC failures. Additionally, advanced anomaly-detection tools parse the deluge of sensor data—smart retrofits in small offices show electricity savings of 8.9–20.4%, depending on climate zone. AI integration is both a driver and an enabler of automation uptake.

Renewable Integration & Grid Flexibility

Australia leads in decentralized clean energy: over 4 million rooftop solar installations (~25 GW capacity) are saving households and businesses an estimated AUD 6 billion (USD 3.88 billion) annually. Automated systems are essential for micro‑generation and demand response: the CSIRO’s AUD 11 million (USD 7.11 million) Digital Infrastructure Energy Flexibility (DIEF) project empowers buildings to manage electricity usage and stabilize the grid. In prefabricated smart- building initiatives, automating energy management has reduced lifecycle costs by 20%, construction time by 12 weeks, and embodied-carbon/waste by 50–80%. These figures highlight BACS' role in enabling Australia’s transition to renewables and smart-grid participation.


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Key Market Challenges

High Initial Investment Costs

One of the most pressing challenges in the Australian BACS market is the high capital expenditure required for system deployment. While long-term operational savings are considerable, the upfront costs associated with purchasing, installing, and integrating automation systems can be prohibitive—especially for small to mid-sized buildings and older structures. Retrofitting existing buildings often requires extensive rewiring, replacing outdated infrastructure, or even overhauling entire HVAC and lighting systems. These costs can be difficult to justify, particularly in a market where return on investment may take several years to realize.

Additionally, newer technologies such as AI-driven predictive analytics, digital twins, or fully integrated cloud-based platforms tend to come with higher licensing fees and ongoing software subscription charges. Budget constraints in the public sector and among small businesses may limit large-scale adoption. Many decision-makers still view BACS as a luxury rather than a necessity, which slows market penetration, particularly in Tier II and Tier III regions.

Despite the government offering some incentives through programs like the National Energy Productivity Plan and various state-based energy efficiency schemes, these are often insufficient to significantly ease the financial burden on early adopters. Until technology costs decrease further or more robust funding mechanisms are introduced, high initial investments will remain a substantial barrier to widespread implementation of building automation solutions in Australia.

Skilled Labor Shortage and Integration Complexity

The Australian BACS market faces a significant shortage of skilled professionals who can design, install, and maintain advanced automation systems. As technologies become more complex—especially with the rise of IoT, AI, and cybersecurity requirements—the demand for multidisciplinary skill sets has grown. However, the local talent pool of engineers, integrators, and technicians with both IT and building systems knowledge remains limited.

Integration of different systems from various manufacturers—HVAC, lighting, security, energy metering—often requires a deep understanding of both operational technologies (OT) and information technologies (IT). Custom programming, protocol conversion (e.g., BACnet, Modbus, KNX), and network configuration are intricate tasks that demand specialized expertise. The scarcity of such experts delays project timelines and increases the risk of design flaws or compatibility issues.

Moreover, many BACS installations require ongoing support to calibrate systems based on building use, energy patterns, or occupant behavior. The lack of experienced facility managers trained in BACS operations means that many systems are underutilized or improperly maintained. As a result, owners may not see the full performance benefits of automation, undermining confidence in the technology.

Without expanded training programs, certifications, and government-industry collaboration to develop a skilled workforce, labor shortages will continue to hinder the growth and effectiveness of Australia’s building automation sector.

Fragmented Technology Ecosystem and Interoperability Issues

A critical technical barrier to adoption in the Australian BACS market is the lack of seamless interoperability between different systems and technologies. Building automation relies on integrating multiple components—HVAC, lighting, access control, fire safety, energy management—each potentially sourced from different vendors with proprietary communication protocols.

Although industry standards like BACnet and KNX exist, many suppliers use their own protocols or modified standards, creating compatibility issues. Integrators often face difficulties when trying to connect legacy systems with new digital platforms, especially in retrofit projects. This leads to higher customization costs, longer installation timelines, and an increased risk of performance failures.

The lack of a universally accepted open architecture discourages building owners from investing in automation, fearing vendor lock-in or future obsolescence. If one system needs replacing or upgrading, it may affect the entire control framework, necessitating additional costs and time. Furthermore, each vendor typically offers its own software interface and dashboard, leading to operational inefficiencies for facility managers who must learn and operate multiple platforms.

Efforts to create unified, plug-and-play solutions have been slow to materialize, and many mid-tier vendors still do not comply with open data exchange standards. This ecosystem fragmentation not only stifles innovation but also hampers scalability and cost-effectiveness, particularly in mixed-use or large commercial projects where multiple technologies must co-exist.

Until a more cohesive and open ecosystem is developed—with standardized interfaces and protocols—interoperability will remain a persistent challenge in the sector.

Cybersecurity and Data Privacy Concerns

As building automation systems become increasingly connected via the cloud and Internet of Things (IoT) platforms, they are exposed to a growing array of cybersecurity threats. Unauthorized access to building control systems can compromise HVAC, lighting, security cameras, and even fire safety mechanisms—putting both property and occupant safety at risk.

Australia has seen a rise in cyber incidents in the critical infrastructure and construction sectors. As per national cybersecurity reports, more than 20% of cyberattacks in 2023 were targeted at industries reliant on industrial control systems (ICS), including smart buildings. Insecure BACS deployments with weak authentication, outdated firmware, or poorly configured networks are vulnerable entry points for attackers.

Moreover, smart buildings collect vast amounts of data on occupant behavior, energy usage, and facility schedules. If this information is improperly handled, it raises significant data privacy issues. Non-compliance with the Australian Privacy Act or international standards such as the GDPR (in multi-national buildings) can result in hefty fines and reputational damage.

Despite increased awareness, many building owners still underestimate the importance of cybersecurity investment during automation implementation. Security is often treated as an afterthought rather than an essential design consideration. A lack of skilled cybersecurity professionals specializing in OT environments further exacerbates the risk.

Without stronger regulations, regular audits, and industry-wide standards for BACS cybersecurity, system vulnerability will remain a key deterrent to adoption.

Limited Awareness and ROI Visibility

Another major challenge for the Australian BACS market is the limited awareness among stakeholders about the benefits, use cases, and long-term return on investment of automation technologies. Building owners, especially in small and mid-tier sectors, often view automation as an added luxury rather than a necessary investment.

A survey of facility managers across Australia revealed that nearly 40% were unaware of the full functionality of their existing automation systems. In many cases, BACS platforms are underutilized or operate in manual modes due to lack of training or unclear benefits. This leads to a diminished perception of value and a reluctance to invest in system upgrades or additional components.

Furthermore, measuring the ROI of building automation is not always straightforward. Energy savings vary depending on building type, usage patterns, and climate zone. Operational improvements such as maintenance efficiency, tenant satisfaction, and asset longevity are less tangible and take longer to quantify. This creates skepticism, especially among financial decision-makers looking for short-term gains.

The market lacks accessible case studies and benchmarks tailored to Australia’s specific building typologies and regulatory environment. As a result, many potential users remain on the sidelines due to uncertainty about the payback period or implementation complexity.

Until there is stronger education, transparent success metrics, and widespread demonstration of value, limited awareness will continue to restrict BACS market expansion.

Key Market Trends

Integration of AI and Predictive Analytics in Building Systems

Artificial intelligence and predictive analytics are reshaping the BACS landscape in Australia, enabling systems to shift from reactive to proactive control. AI algorithms analyze data collected from sensors, occupancy patterns, weather forecasts, and historical performance to predict equipment behavior and optimize system operations before inefficiencies occur. For instance, AI-integrated HVAC systems can anticipate cooling or heating needs based on occupancy and external temperature trends, leading to smoother performance and energy savings of up to 20%.

Predictive maintenance is another area gaining traction. Sensors detect early signs of equipment wear or malfunction, triggering service alerts before failures occur. This minimizes downtime, extends equipment lifespan, and cuts maintenance costs by 15–30%. Additionally, AI-driven dashboards are providing building managers with actionable insights that help them fine-tune energy consumption, water usage, and even space utilization.

In sectors like healthcare and commercial real estate, these smart capabilities are becoming essential, ensuring operational efficiency and compliance with health and safety standards. The emergence of digital twins—virtual models of physical assets—further enhances the ability to simulate building performance under various conditions, improving design, operations, and future retrofits.

As Australia’s built environment grows more data-centric, AI and analytics will become standard features in next-generation BACS deployments, offering long-term strategic value beyond traditional control systems.

Rise of Cloud-Based and Wireless Building Automation Platforms

Cloud-based and wireless solutions are rapidly gaining momentum in the Australian BACS market due to their scalability, remote accessibility, and reduced installation costs. Traditional wired automation systems, while reliable, are expensive and difficult to retrofit into existing buildings. In contrast, cloud-based platforms offer flexibility for small to medium-sized buildings by removing the need for complex on-site infrastructure.

Wireless protocols such as Zigbee, Z-Wave, LoRaWAN, and KNX-RF are increasingly being used to connect sensors, meters, and control modules across HVAC, lighting, and energy management systems. These solutions simplify integration and make it easier to scale automation across multi-building campuses. For instance, wireless occupancy sensors can be installed in minutes and start delivering insights that reduce lighting and HVAC energy use by 10–15%.

Cloud platforms also enable remote monitoring and control, a critical need in post-pandemic facility management. Building managers can adjust settings, troubleshoot systems, or generate performance reports from any location, reducing on-site labor. This is especially valuable for facility portfolios spread across regions or states.

Furthermore, cloud integration supports data-driven decision-making by consolidating data from multiple assets into a single dashboard. Cloud-based platforms often include automatic software updates and cybersecurity enhancements, addressing long-standing concerns about data safety. As more buildings move toward digital operations, cloud and wireless technologies will be at the heart of Australia’s BACS evolution.

Growing Demand for Health, Safety, and Indoor Air Quality Solutions

Since the COVID-19 pandemic, indoor environmental quality (IEQ) has emerged as a central focus in building automation. Australian commercial and institutional buildings—especially offices, schools, and healthcare facilities—are increasingly integrating systems that monitor and control indoor air quality (IAQ), temperature, humidity, and ventilation in real time.

Advanced sensors now track CO levels, particulate matter (PM2.5), and volatile organic compounds (VOCs), providing data that triggers automated HVAC responses to maintain safe and healthy environments. Demand-controlled ventilation (DCV) systems adjust airflow based on occupancy and IAQ conditions, helping reduce energy use by 15–20% while ensuring a healthier indoor climate.

Touchless access control, automated sanitation systems, and intelligent lighting controls that adjust for circadian rhythms are also gaining ground. These features not only enhance occupant comfort and well-being but also align with broader health and safety compliance standards. Research shows that buildings with better IEQ yield 8–11% gains in occupant productivity and satisfaction.

Health-focused automation is also becoming a value differentiator for commercial real estate, with tenants prioritizing wellness-certified spaces such as those certified by WELL or Fitwel. BACS plays a key role in achieving such certifications by enabling data-driven environmental management.

In Australia, where large cities experience seasonal air quality issues and rising temperatures, the demand for smart IEQ solutions will remain a defining trend in the building automation market.

Expansion of Building Automation in Mid-Tier and Retrofit Markets

While BACS adoption has historically been concentrated in high-end commercial projects and new construction, there is a growing trend toward penetration in mid-tier buildings and retrofitting older infrastructure across Australia. Over 80% of Australia’s building stock was constructed before 2000, much of it without integrated automation. These aging assets present a large untapped opportunity for scalable and affordable automation solutions.

The availability of modular, plug-and-play systems has made it feasible to retrofit HVAC, lighting, and access control systems without extensive structural changes. Wireless technologies and cloud-based platforms are especially well-suited for retrofits, enabling building owners to upgrade in phases based on budgets and priorities. Retrofitting can improve energy efficiency by 20–30% and lead to better tenant retention and asset valuation.

Government grants, such as the Energy Efficient Communities Program and state-based retrofit incentives, are encouraging small and medium businesses (SMBs) and strata buildings to invest in automation. In addition, ESG reporting obligations and energy disclosure rules are pushing property owners to improve the efficiency of their existing assets.

With rising energy prices and growing expectations around digital capability, the mid-tier and retrofit segments are increasingly recognizing the benefits of automation—not only for operational efficiency but also for long-term asset sustainability. This trend is reshaping the BACS market toward inclusivity and wider accessibility across Australia’s built environment.

Segmental Insights

Component Insights

HVAC segment dominates in the Australia Building Automation & Control Systems Market in 2024 due to its critical role in energy consumption, indoor environmental quality, and regulatory compliance. HVAC systems account for a significant portion—typically 35% to 50%—of total energy use in commercial and institutional buildings in Australia. As energy costs continue to rise and sustainability becomes a strategic priority, automating HVAC operations offers a direct path to reducing utility expenses and improving efficiency.

The demand for smart HVAC systems is driven by their ability to intelligently manage temperature, airflow, and humidity levels based on occupancy patterns, external weather conditions, and time schedules. With the integration of IoT sensors and AI-based predictive algorithms, these systems are now capable of optimizing energy consumption in real-time, reducing costs by up to 25% in large commercial buildings. Features such as demand-controlled ventilation (DCV), variable air volume (VAV), and automated fault detection contribute significantly to both performance and sustainability goals.

Furthermore, Australia’s regulatory environment incentivizes efficient HVAC automation. Compliance with NABERS and Green Star certification programs requires active monitoring and control of indoor climate conditions—functions that are inherently tied to automated HVAC systems. In sectors such as healthcare, education, and hospitality, HVAC automation is not only a comfort issue but also a health and safety requirement, especially in managing indoor air quality (IAQ).

Additionally, retrofitting older buildings with HVAC automation systems has become more cost-effective with the rise of wireless and modular technologies. This is expanding adoption beyond new constructions into the broader built environment. As a result, HVAC remains the core focus of BACS investments in 2024, leading the market both in terms of revenue share and functional importance across Australia’s commercial, institutional, and residential building sectors.

Communication Protocol Insights

Wireless segment dominated the Australia Building Automation & Control Systems Market in 2024 due to its flexibility, cost-efficiency, and ease of deployment. Wireless systems eliminate the need for extensive cabling, making them ideal for retrofits and small to mid-sized buildings. They support rapid installation, lower labor costs, and scalable integration across HVAC, lighting, and security systems. With rising demand for remote monitoring, cloud connectivity, and IoT-enabled controls, wireless platforms offer enhanced accessibility and adaptability. Additionally, protocols like Zigbee, Z-Wave, and KNX-RF have matured, ensuring reliable performance and broad compatibility, driving their widespread adoption across Australia’s smart building landscape.


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Regional Insights

Largest Region

New South Wales dominates the Australia Building Automation & Control Systems Market in 2024 primarily due to its dense urban development, government-led sustainability initiatives, and strong commercial real estate activity. As the most populous state, with Sydney as its economic center, NSW accounts for a significant proportion of Australia’s commercial buildings, high-rise residential developments, hospitals, and educational institutions—all major consumers of automation technologies.

The state’s aggressive climate and energy policies, such as the Net Zero Plan Stage 1 and the Building Sustainability Index (BASIX), are pushing developers to implement smart systems that reduce emissions and improve energy efficiency. Many buildings in NSW are required to comply with NABERS and Green Star ratings, both of which encourage automated HVAC, lighting, and energy monitoring systems. As a result, building owners are investing heavily in BACS to meet both regulatory obligations and tenant expectations.

Furthermore, Sydney’s strong construction pipeline, including large-scale infrastructure and smart precinct developments like Tech Central, Barangaroo, and Green Square, is driving increased adoption of integrated building systems. The focus on sustainability, smart energy use, and occupant wellness in these projects makes BACS essential from the design stage.

NSW is also a leader in smart city initiatives, supported by digital infrastructure funding and partnerships between the public and private sectors. The availability of skilled professionals, R&D support from universities, and a strong base of system integrators and technology vendors contribute to the region's dominance.

Moreover, the rise of cloud-based platforms and wireless automation technologies has made BACS more accessible to mid-tier and retrofit projects across suburban areas of NSW. This has expanded the market beyond premium buildings to a broader segment of the built environment. Collectively, these factors position New South Wales as the leading region in Australia’s BACS market in 2024.

Emerging Region

Victoria is the emerging region in the Australia Building Automation & Control Systems Market in the coming period due to its aggressive sustainability agenda, expanding infrastructure projects, and innovation ecosystem. State-backed programs like the Victoria Energy Upgrades scheme and Greener Government Buildings initiative are accelerating smart building investments. Melbourne’s pipeline of high-tech precincts—such as Fishermans Bend and Arden—incorporates IoT-driven HVAC, lighting, and energy management from the outset. Meanwhile, local universities and tech incubators are fostering BACS-focused R&D and startups. Coupled with strong retrofit activity in suburban commercial and multi-residential properties, Victoria is set to become a leading hub for smart building adoption.

Recent Developments

  • In May 2025, Bitpool, a PropTech leader, partnered with Austec Automation, a veteran in building automation and electrical services. This strategic alliance merges Bitpool’s AI-powered platform with Austec’s proven field expertise to deliver non-proprietary, end-to-end automation solutions. The collaboration enables real-time insights for property owners and operators, optimizing building performance, reducing emissions, and lowering operating costs across Australia through open-source, data-driven automation technologies.
  • In February 2024, ABB Australia appointed Amber Technology as a national technical distributor for its building automation and lighting control solutions. With coverage across major Australian cities and a broad installer network, Amber enhances ABB’s distribution capabilities in both residential and commercial markets. This partnership strengthens ABB’s local market presence and ensures more efficient delivery and support of its smart building solutions.
  • In May 2025, Automated Logic, a Carrier Global Corporation subsidiary, acquired Logical Building Group Pty Ltd, a prominent Automated Logic contractor in New South Wales. The acquisition strengthens Automated Logic’s Australian operations and expands its intelligent energy and building management capabilities. Logical Building Automation brings local expertise and a solid customer base, further aligning with Carrier’s global strategy to grow its intelligent climate and energy solutions portfolio.
  • In March 2025, KODE Labs formed a strategic alliance with Operational Intelligence to deliver advanced smart building solutions across Southeast Asia, Australia, and the UK. This partnership combines KODE Labs’ AI-driven automation platform with Operational Intelligence’s local expertise to transform building operations. The collaboration aims to enhance connectivity, efficiency, and intelligence across diverse real estate portfolios, setting new standards for next-generation smart infrastructure.
  • In December 2024, Honeywell was appointed as the building automation provider for Victoria’s fully electric Melton Hospital. Under a 25-year agreement, Honeywell will deploy its building management technologies, including Honeywell Forge, to enhance energy and operational efficiency. The project supports Victoria’s net-zero 2050 target, positioning Melton Hospital as a model for sustainable healthcare infrastructure through intelligent automation and secure energy management.

Key Market Players

  • Siemens AG       
  • Honeywell International
  • Schneider Electric
  • Johnson Controls
  • ABB Ltd.
  • Legrand SA
  • Bosch Security Systems
  • Carrier (UTC)
  • Crestron Electronics
  • Lutron Electronics    

 

By Component

By Communication Protocol

By End User

By Region

  • HVAC
  • Lighting Systems
  • Electronic Security
  • Energy Management System
  • Wired
  • Wireless
  • IT/ITEs
  • Residential
  • Commercial
  • Hospitality
  • Industrial
  • Retail
  • Hospital
  • Others
  • New South Wales
  • Victoria
  • Queensland
  • Western Australia
  • South Australia
  • Tasmania
  • Australian Capital Territory
  • Northern Territory

 

Report Scope:

In this report, the Australia Building Automation & Control Systems Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

  • Australia Building Automation & Control Systems Market, By Component:

o   HVAC

o   Lighting Systems

o   Electronic Security

o   Energy Management System

  • Australia Building Automation & Control Systems Market, By Communication Protocol:

o   Wired

o   Wireless

  • Australia Building Automation & Control Systems Market, By End User:

o   IT/ITEs

o   Residential

o   Commercial

o   Hospitality

o   Industrial

o   Retail

o   Hospital

o   Others

  • Australia Building Automation & Control Systems Market, By Region:

o   New South Wales

o   Victoria

o   Queensland

o   Western Australia

o   South Australia

o   Tasmania

o   Australian Capital Territory

o   Northern Territory

 

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Australia Building Automation & Control Systems Market.

Available Customizations:

Australia Building Automation & Control Systems Market report with the given market data, Tech Sci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

  • Detailed analysis and profiling of additional market players (up to five).

Australia Building Automation & Control Systems Market is an upcoming report to be released soon. If you wish an early delivery of this report or want to confirm the date of release, please contact us at [email protected]  

Table of content

Table of content

1.    Product Overview

1.1.  Market Definition

1.2.  Scope of the Market

1.2.1.    Markets Covered

1.2.2.    Years Considered for Study

1.2.3.    Key Market Segmentations

2.    Research Methodology

2.1.  Objective of the Study

2.2.  Baseline Methodology

2.3.  Key Industry Partners

2.4.  Major Association and Secondary Sources

2.5.  Forecasting Methodology

2.6.  Data Triangulation & Validation

2.7.  Assumptions and Limitations

3.    Executive Summary

3.1.  Overview of the Market

3.2.  Overview of Key Market Segmentations

3.3.  Overview of Key Market Players

3.4.  Overview of Key Regions/Countries

3.5.  Overview of Market Drivers, Challenges, and Trends

4.    Voice of Customer

5.    Australia Building Automation & Control Systems Market Outlook

5.1.  Market Size & Forecast

5.1.1.    By Value

5.2.   Market Share & Forecast

5.2.1.    By Component (HVAC, Lighting Systems, Electronic Security, Energy Management System)

5.2.2.    By Communication Protocol (Wired Vs. Wireless)

5.2.3.    By End User (IT/ITEs, Residential, Commercial, Hospitality, Industrial, Retail, Hospital, Others)

5.2.4.    By Region (New South Wales, Victoria, Queensland, Western Australia, South Australia, Tasmania, Australian Capital Territory, Northern Territory)

5.3.  By Company (2024)

5.4.   Market Map

6.    New South Wales Building Automation & Control Systems Market Outlook

6.1.  Market Size & Forecast

6.1.1.    By Value

6.2.  Market Share & Forecast

6.2.1.    By Component

6.2.2.    By Communication Protocol

6.2.3.    By End User

7.    Victoria Building Automation & Control Systems Market Outlook

7.1.  Market Size & Forecast

7.1.1.    By Value

7.2.  Market Share & Forecast

7.2.1.    By Component

7.2.2.    By Communication Protocol

7.2.3.    By End User

8.    Queensland Building Automation & Control Systems Market Outlook

8.1.  Market Size & Forecast

8.1.1.    By Value

8.2.  Market Share & Forecast

8.2.1.    By Component

8.2.2.    By Communication Protocol

8.2.3.    By End User

9.    Western Australia Building Automation & Control Systems Market Outlook

9.1.  Market Size & Forecast

9.1.1.    By Value

9.2.  Market Share & Forecast

9.2.1.    By Component

9.2.2.    By Communication Protocol

9.2.3.    By End User

10. South Australia Building Automation & Control Systems Market Outlook

10.1.     Market Size & Forecast

10.1.1. By Value

10.2.     Market Share & Forecast

10.2.1. By Component

10.2.2. By Communication Protocol

10.2.3. By End User

11. Tasmania Building Automation & Control Systems Market Outlook

11.1.     Market Size & Forecast

11.1.1. By Value

11.2.     Market Share & Forecast

11.2.1. By Component

11.2.2. By Communication Protocol

11.2.3. By End User

12. Australian Capital Territory Building Automation & Control Systems Market Outlook

12.1.     Market Size & Forecast

12.1.1. By Value

12.2.     Market Share & Forecast

12.2.1. By Component

12.2.2. By Communication Protocol

12.2.3. By End User

13. Northern Territory Building Automation & Control Systems Market Outlook

13.1.     Market Size & Forecast

13.1.1. By Value

13.2.     Market Share & Forecast

13.2.1. By Component

13.2.2. By Communication Protocol

13.2.3. By End User

14.  Market Dynamics

14.1.     Drivers

14.2.     Challenges

15. Market Trends and Developments

15.1.     Merger & Acquisition (If Any)

15.2.     Product Launches (If Any)

15.3.     Recent Developments

16. Company Profiles

16.1.      Siemens AG        

16.1.1. Business Overview

16.1.2. Key Revenue and Financials 

16.1.3. Recent Developments

16.1.4. Key Personnel

16.1.5. Key Product/Services Offered

16.2.     Honeywell International

16.3.     Schneider Electric

16.4.     Johnson Controls

16.5.     ABB Ltd.

16.6.     Legrand SA

16.7.     Bosch Security Systems

16.8.     Carrier (UTC)

16.9.     Crestron Electronics

16.10.   Lutron Electronics     

17. Strategic Recommendations

18. About Us & Disclaimer

Figures and Tables

Frequently asked questions

Frequently asked questions

The market size of the Australia Building Automation & Control Systems Market was USD 2.22 Billion in 2024.

Wired is the fastest growing segment in the Australia Building Automation & Control Systems Market, By Communication Protocol in the forecast period due to their superior reliability, security, and data transmission stability. They are preferred for large-scale commercial and critical infrastructure projects where consistent performance, minimal interference, and long-term durability are essential for complex automation and integration requirements.

Challenges in Australia’s Building Automation & Control Systems market include high initial installation costs, limited awareness among small and mid-sized building owners, skilled labor shortages, cybersecurity risks, and interoperability issues between proprietary systems. These barriers hinder widespread adoption, particularly in retrofits and mid-tier properties, despite growing demand for smart building solutions.

Major drivers for Australia’s Building Automation & Control Systems market include rising energy costs, strict sustainability regulations, demand for smart and net-zero buildings, advancements in IoT and AI technologies, and increased focus on occupant health and comfort. These factors collectively drive adoption across commercial, residential, and institutional infrastructure projects nationwide.

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