Many disparate systems for patients, staff, facilities.
Complexity of integrating staff and patient resources and systems with facilities services and equipment.
Long term strategic decision making requires scenario planning, numerous stakeholders and lots of information.
Cyber-security and Privacy across every system and device.
Strict Standards and Regulatory controls.
Inconsistent, delayed or error-prone patient care.
Extended or delayed decision making processes.
Innovation is constrained because it is deemed too risky.
High cost of development, implementation and deployment of new technologies, systems and processes.
TwinWorX® Digital Twins for
TwinWorX® Digital Twins for Smart Healthcare
Model real world entities and concepts (patient flow,
pathways) to create digital replicas of assets, spaces, people and workflows and connect them to live telemetry data for real time monitoring.
Integrate building core and shell systems like BAS,
HVAC, metering, lighting, etc. into a single platform along with clinic systems.
Get data out of silos and turn it into information, real-time
status monitoring, performance analysis and and actionable insights about building performance.
Review and respond to fault detection and diagnosis alerts and alarms.
Gain 360 degree visibility and situational awareness of assets via a ‘Single Pane of Glass’ that unifies information, alerts and insights.
Intuitively navigate through 3D visualization of facility geospatial information.
Quickly and easily search assets, telemetry data, alarms, insights.
Visualize digitize processes to better understand change impact.
Get the right information to the right people at the right time and place in order to enable highly informed decision making across the healthcare organization.
Comply with HL7 and FHIR standards for integration and security.
Command and control assets across the portfolio via bidirectional communication.
Increase responsiveness by reacting to alarms and notifications.
Improve facilities management service levels with proactive and predictive maintenance.
Improve efficiencies in patient care with people centric workflows and systems.
Test scenarios that can lead to improvements by studying the effects of changing inputs and conditions using virtual Digital Twins instead of physical environments.
Optimize staff resources and schedules.
Understand the complexity of interconnected and interdependent systems.
Reduce Energy consumption and energy costs.