COURSE OVERVIEW:

Welcome to the Safe Simultaneous Operations (SIMOPS) in Construction course. This program has been designed to equip you with the knowledge, planning frameworks, and coordination strategies required to safely manage multiple activities occurring at the same time within complex construction environments.

Simultaneous operations present some of the highest-risk conditions on construction sites due to overlapping tasks, shared spaces, and competing priorities. This course begins by introducing the purpose and objectives of SIMOPS management, defining what constitutes simultaneous operations, and explaining why these environments significantly increase safety, operational, and coordination risks. It explores how SIMOPS management integrates with WHS management systems and project delivery requirements, and clarifies the roles, responsibilities, and accountability of all parties involved in managing concurrent activities.

Understanding how SIMOPS arise in construction settings is essential for effective control. This section examines common examples of simultaneous operations, typical trade interactions, and the challenges created when multiple activities occur in close proximity. It highlights how SIMOPS differ from single-activity environments, identifies interfaces between trades, plant, services, and personnel, and examines the serious consequences that can result from inadequate planning and control.

Legal duties under Australian WHS legislation form the foundation for SIMOPS management. This section provides an overview of WHS Acts and Regulations across jurisdictions, focusing on PCBU duties to manage risks arising from overlapping activities. It examines worker responsibilities, consultation, cooperation, and coordination obligations between PCBUs, and the legal consequences of SIMOPS-related incidents and non-compliance.

Effective SIMOPS management relies heavily on strong interface coordination. This section explores the role of the principal contractor in managing and coordinating simultaneous works, contractor responsibilities when working alongside others, and the management of subcontractor interfaces in shared work areas. It also examines authority, decision-making structures, and the management of overlapping responsibilities and controls.

Hazard identification is critical in environments where activities intersect. This section examines how to identify hazards created by overlapping tasks, shared spaces, and interacting plant, materials, and processes. It focuses on time-based, location-based, and activity-based conflicts, and the use of site inspections, SWMS, and consultation to systematically identify SIMOPS hazards.

Risk assessment and control become more complex when activities overlap. This section explores how to assess compounded risks, evaluate likelihood and consequence in SIMOPS environments, and apply the hierarchy of control to interaction risks. It also examines selecting appropriate controls and reviewing risk assessments as site conditions and work sequences change.

Work sequencing and scheduling are key tools in reducing SIMOPS risk. This section examines how to plan work sequences to minimise overlap, use construction schedules to identify conflicts, coordinate work zones and timings, and adjust schedules in response to delays or site changes. It highlights the importance of communicating sequencing changes clearly to all affected parties.

Permit-to-work systems provide structured authorisation in SIMOPS environments. This section explores the purpose of permits, common permit types relevant to simultaneous operations, and how to manage multiple permits operating concurrently. It examines authorisation, suspension, cancellation processes, and alignment of permits with site-wide SIMOPS controls.

Clear communication underpins safe SIMOPS management. This section examines the role of pre-start meetings, toolbox talks, coordination briefings, and information sharing between trades. It focuses on sharing SWMS, risk assessments, work plans, and escalation processes when conflicts or risks emerge.

Exclusion zones and work area segregation are critical control measures. This section explores the purpose of exclusion zones, physical and administrative separation strategies, vertical and horizontal segregation, and the use of signage, barricades, and access controls. It also examines monitoring and enforcement requirements.

Traffic and pedestrian interfaces present significant risks during SIMOPS. This section examines traffic management planning, coordination of plant and deliveries, pedestrian controls, and managing changing traffic conditions as work progresses across overlapping activities.

High-risk construction work requires enhanced coordination during SIMOPS. This section examines identifying high-risk activities, coordinating multiple SWMS, managing interactions between high-risk and non-high-risk tasks, and supervisory requirements when high-risk works occur concurrently.

Emergency planning becomes more complex when multiple activities are underway. This section explores emergency risks created by SIMOPS, coordination of emergency responses across contractors, evacuation route management, communication of procedures, and the need to review preparedness as SIMOPS conditions change.

Incident reporting and investigation are essential for learning and prevention. This section examines reporting SIMOPS-related incidents, investigating coordination and interface failures, identifying root causes linked to planning or communication, and implementing corrective actions. It also highlights the importance of sharing lessons learned across all contractors.

Monitoring and continuous improvement ensure SIMOPS controls remain effective. This section examines inspections, audits, coordination reviews, performance monitoring, and the integration of SIMOPS learnings into future project planning as work stages evolve.

By the end of this course, you will be equipped with the knowledge, systems, and practical strategies required to identify, assess, and control risks arising from simultaneous operations, ensuring safer construction sites, stronger coordination, and compliant project delivery under Australian WHS requirements.

Each section is complemented with examples to illustrate the concepts and techniques discussed.

LEARNING OUTCOMES:

By the end of this course, you will be able to understand the following topics:

1. Introduction to Simultaneous Operations Management

• Purpose and objectives of SIMOPS management in construction environments
• Definition and scope of simultaneous operations across construction projects
• Why SIMOPS present heightened safety, operational, and coordination risks
• Relationship between SIMOPS, WHS management systems, and project delivery
• Overview of roles, responsibilities, and accountability in SIMOPS management

2. Understanding Simultaneous Operations (SIMOPS) in Construction

• Common examples of SIMOPS on construction sites
• Typical trade interactions and overlapping work activities
• How SIMOPS differ from single-activity work environments
• Identifying interfaces between trades, plant, services, and personnel
• Consequences of poor SIMOPS planning and control

3. Legal Duties and Responsibilities under Australian WHS Legislation

• Overview of WHS Acts and Regulations across Australian jurisdictions
• Duties of PCBUs in managing risks arising from simultaneous activities
• Worker duties during overlapping work operations
• Consultation, cooperation, and coordination duties between PCBUs
• Legal implications of SIMOPS-related incidents and non-compliance

4. Principal Contractor and Contractor Interface Management

• Role of the principal contractor in coordinating SIMOPS
• Contractor responsibilities when working alongside other trades
• Managing subcontractor interfaces and shared work areas
• Establishing clear lines of authority and decision-making
• Managing overlapping responsibilities and control measures

5. Hazard Identification in Simultaneous Work Activities

• Identifying hazards created by overlapping tasks and shared spaces
• Interaction hazards between people, plant, materials, and processes
• Hazards arising from differing work methods and equipment
• Identifying time-based, location-based, and activity-based conflicts
• Using site inspections, SWMS, and consultation to identify SIMOPS hazards

6. Risk Assessment and Risk Control for SIMOPS

• Assessing compounded risks created by simultaneous activities
• Evaluating likelihood and consequence when activities overlap
• Applying the hierarchy of control to SIMOPS risks
• Selecting controls that address interaction and interface risks
• Reviewing risk assessments as work conditions change

7. Work Sequencing and Scheduling Coordination

• Planning work sequences to minimise overlap where possible
• Using construction schedules to identify SIMOPS conflicts
• Coordinating start times, durations, and work zones
• Adjusting schedules in response to site conditions or delays
• Communicating sequencing changes to all affected parties

8. Permit-to-Work Systems and Authorisation Controls

• Purpose of permit-to-work systems in SIMOPS environments
• Types of permits relevant to SIMOPS (hot work, confined space, isolation)
• Managing multiple permits operating concurrently
• Authorisation, suspension, and cancellation of permits
• Ensuring permits align with site-wide SIMOPS controls

9. Communication and Information Sharing between Trades

• Importance of effective communication in SIMOPS management
• Pre-start meetings, toolbox talks, and coordination briefings
• Sharing SWMS, risk assessments, and work plans
• Managing communication across different contractors and supervisors
• Escalation processes when SIMOPS conflicts arise

10. Exclusion Zones and Work Area Segregation

• Purpose of exclusion zones in managing SIMOPS risks
• Designing physical and administrative separation controls
• Managing vertical and horizontal separation of work activities
• Signage, barricades, and access control measures
• Monitoring and enforcing exclusion zone compliance

11. Traffic and Pedestrian Interface Management

• Managing vehicle and pedestrian interactions during SIMOPS
• Traffic management plans for shared work areas
• Coordinating deliveries, plant movement, and loading zones
• Controlling pedestrian access during high-risk activities
• Managing changing traffic conditions as work progresses

12. High-Risk Construction Work Coordination

• Identifying high-risk construction work within SIMOPS environments
• Coordinating SWMS across multiple high-risk activities
• Managing interactions between high-risk tasks and other works
• Ensuring consistent controls across overlapping high-risk operations
• Supervisory requirements for concurrent high-risk work

13. Emergency Planning and Response during SIMOPS

• Emergency risks created by simultaneous activities
• Coordinating emergency response across multiple contractors
• Managing evacuation routes during overlapping operations
• Communicating emergency procedures to all workers on site
• Reviewing emergency preparedness as SIMOPS change

14. Incident Reporting, Investigation, and Review

• Reporting incidents arising from SIMOPS interactions
• Investigating interface and coordination failures
• Identifying root causes related to planning, sequencing, or communication
• Implementing corrective actions to prevent recurrence
• Sharing lessons learned across all contractors

15. Monitoring, Review, and Continuous Improvement of SIMOPS Controls

• Monitoring effectiveness of SIMOPS control measures
• Conducting inspections, audits, and coordination reviews
• Reviewing SIMOPS arrangements as work stages change
• Continuous improvement through feedback and performance data
• Integrating SIMOPS learnings into future project planning

COURSE DURATION:

The typical duration of this course is approximately 3-4 hours to complete. Your enrolment is Valid for 12 Months. Start anytime and study at your own pace.

COURSE REQUIREMENTS:

You must have access to a computer or any mobile device with Adobe Acrobat Reader (free PDF Viewer) installed, to complete this course.

COURSE DELIVERY:

Purchase and download course content.

ASSESSMENT:

A simple 10-question true or false quiz with Unlimited Submission Attempts.

CERTIFICATION:

Upon course completion, you will receive a customised digital “Certificate of Completion”.