1. Cleaning
1.1. Predictive/Usage Based Cleaning
1.1.1. Having sensors to see how often a room or bathroom etc is used
1.1.1.1. SENSOR
1.1.2. Using cameras for common areas to detect rubbish and untidiness
1.1.2.1. SENSOR
1.2. Robotic and AI Process Automation
1.2.1. OR-X going through areas while property is closed
1.3. All areas
1.3.1. Common Areas
1.3.1.1. Lobby
1.3.1.1.1. OR-X
1.3.1.1.2. Conventional Autonomous Washing Robot
1.3.1.1.3. Digital Evidence Cleaning
1.3.1.2. Landing
1.3.1.2.1. OR-X
1.3.1.2.2. Conventional Autonomous Washing Robot
1.3.1.2.3. Digital Evidence Cleaning
1.3.1.3. Conference Room
1.3.1.3.1. OR-X
1.3.1.3.2. Conventional Autonomous Washing Robot
1.3.1.3.3. Digital Evidence Cleaning
1.3.1.4. Dining and pantry
1.3.1.4.1. OR-X
1.3.1.4.2. Conventional Autonomous Washing Robot
1.3.1.5. Bathroom and Toilet
1.3.1.5.1. OR-X
1.3.1.5.2. Self cleaning toilet
1.3.1.5.3. Towels
1.3.1.5.4. Soap
1.3.1.5.5. Rubbish Bin collection
1.3.1.5.6. Automated Flush
1.3.1.5.7. Urinal Cleaning
1.3.1.5.8. Digital Evidence Cleaning
1.3.1.6. Rubbish Bins
1.3.1.6.1. Know when you need to empty
1.3.1.6.2. Automated compression of rubbish inside bin
1.3.1.6.3. Digital Evidence Cleaning
1.3.1.7. Rubbish collection trolley
1.3.1.7.1. Track movement and efficiency speed
1.3.1.7.2. Know when its done its job
1.3.1.7.3. Automated compression of rubbish trolley
1.3.1.7.4. Digital Evidence Cleaning
1.3.1.8. Contactless Technology
1.3.1.8.1. Increases cleanliness & hygiene
1.3.1.8.2. Reduces risk of Coronavirus transmission
1.3.1.8.3. Apps on phones of office workers
1.3.1.9. Air Quality
1.3.1.9.1. To be regulated germ free and of high quality air. Especially truthful in common areas and toilets
1.4. Devices
1.4.1. OR-2
1.4.2. OR-3
1.4.3. Vacuum
1.5. ADVANTAGES
1.5.1. Humans don't need to do a lot of the dirty work
1.5.2. Reduction
1.5.2.1. Time
1.5.2.2. Manpower
1.5.2.2.1. Less Management required due to less manpower
1.5.2.3. Cost
1.5.2.3.1. Less energy used
1.5.2.3.2. Less Personnel
1.5.3. Increase
1.5.3.1. Efficiency
1.5.3.2. Less time, lest cost, less people
1.5.4. Digital Evidence Cleaning
1.5.5. Can track number of people to facility cleaning.
2. Horticulture
2.1. Recycling energy
2.1.1. Solar to electricity
2.1.1.1. Capturing sunlight from top and sides of building to convert into electricity
2.1.1.2. Capturing sunlight per desk to power workstation and charging electronic devices
2.1.2. Kinetic to electricity
2.1.2.1. Electric Cars capturing kinetic energy and recycling into electricity
2.1.3. Heat to electricity
2.1.3.1. Capturing heat/kinetic as elevator goes down
2.1.3.2. Capturing heat through windows
2.1.3.3. Capturing heat energy while things are off
2.1.4. Kinetic to heat
2.1.5. Carbon Dioxide converted to energy
2.2. Irrigation Management
2.2.1. Sensors learning weather patterns
2.2.1.1. Changing in air pressure (predicting rain)
2.2.1.1.1. SENSOR
2.2.1.2. Weather forecast device
2.2.1.2.1. SENSOR
2.3. Landscape Management
2.3.1. Length of Grass
2.3.1.1. SENSOR
2.3.2. Soil Management
2.3.2.1. SENSOR
2.4. Weather Forecasting
2.4.1. Temperature
2.4.2. Humidity
2.4.3. Air Pressure
2.5. ADVANTAGES
2.5.1. Humans don't need to do a lot of the dirty work
2.5.2. Reduction
2.5.2.1. Time
2.5.2.2. Manpower
2.5.2.2.1. Less Management
2.5.2.3. Cost
2.5.2.3.1. Less energy used
2.5.2.3.2. Less Personnel
2.5.3. Increase
2.5.3.1. Efficiency
2.5.3.2. Less time, lest cost, less people
3. Mechanical & Electrical
3.1. ADVANTAGES
3.1.1. Humans don't need to do a lot of the dirty work
3.1.2. Reduction
3.1.2.1. Time
3.1.2.2. Manpower
3.1.2.2.1. Less Management
3.1.2.3. Cost
3.1.2.3.1. Less energy used
3.1.2.3.2. Less Personnel
3.1.3. Increase
3.1.3.1. Efficiency
3.1.3.2. Less time, lest cost, less people
3.2. AIr Conditioning Management
3.3. Heater Management
3.4. Climate Control
3.4.1. Regulating temperature during operational hours
3.4.1.1. SENSOR
3.4.2. Regulating temperature based on number of occupants in area
3.4.2.1. SENSOR
3.4.2.2. occupancy-based wireless thermostats can save 5-10% of HVAC energy costs if programmed to allow the HVAC system to reduce its operation when the building or zone is unoccupied
3.4.3. Regulating temperature based on outdoor atmospheric conditions
3.4.3.1. SENSOR
3.4.4. Climate Control On/Off scheduling
3.4.5. Electronic blinds to adjust based on sunlight and indoor temperature change
3.4.5.1. SENSOR
3.4.5.2. Solar film on windows as another option. blinds / solar film can help reduce cooling load by 10-20%.
3.5. Environmental Management
3.5.1. Air Cleanliness
3.5.1.1. Sensing air purity
3.5.1.1.1. SENSOR
3.5.1.2. Engaging air cleaning services upon sensor information
3.5.1.2.1. SENSOR
3.5.2. Digital Evidence Air Management
3.5.3. An Aircon that takes in CO2 and becomes energy
4. Security
4.1. Carpark Monitoring
4.1.1. Using number plate recognition
4.1.1.1. SENSOR
4.2. Object Detection
4.2.1. Movement sensors
4.2.1.1. SENSOR
4.2.2. All areas of property
4.2.3. Scheduled based on category of area of property
4.3. Human Resource
4.3.1. Personnel
4.3.1.1. OTSAW OR-2
4.3.1.1.1. Taking temperature
4.3.1.1.2. Signing in for contact tracing
4.3.2. Visitors
4.3.2.1. OTSAW OR-2
4.3.2.1.1. Taking temperature
4.3.2.1.2. Signing in for contact tracing
4.4. Robotic and AI Process Automation
4.5. Geofencing
4.5.1. SENSOR
4.6. OTSAW OR-2
4.7. OTSAW OR-3
4.8. Contactless Entry
4.8.1. Sensor Based on type of entry
4.8.1.1. Heat sensor
4.8.1.1.1. SENSOR
4.8.1.2. Optical sensor
4.8.1.2.1. SENSOR
4.9. ADVANTAGES
4.9.1. Humans don't need to do the things that they don't feel motivated to do in certain types of nations that are of more wealth.
4.9.2. Reduction
4.9.2.1. Time
4.9.2.2. Manpower
4.9.2.2.1. Less Management
4.9.2.3. Cost
4.9.2.3.1. Less energy used
4.9.2.3.2. Less Personnel
4.9.3. Increase
4.9.3.1. Efficiency
4.9.3.2. Less time, lest cost, less people
5. Building
5.1. Space Management
5.1.1. Desk usage
5.1.1.1. Regulating climate control based on occupancy
5.1.1.1.1. SENSOR
5.1.2. Office usage
5.1.2.1. Meeting Rooms
5.1.2.1.1. SENSOR
5.1.2.2. Conference Rooms
5.1.2.2.1. SENSOR
5.1.2.3. Public Areas
5.1.2.3.1. SENSOR
5.1.3. Social Distancing
5.1.3.1. Tracking people to make sure that social distancing is regulated and maintained
5.1.3.1.1. SENSOR
5.2. Energy Management
5.2.1. Lighting
5.2.1.1. Auto shut off if no movement is sense
5.2.1.1.1. SENSOR
5.2.1.2. Based on lighting conditions from natural light
5.2.1.2.1. SENSOR
5.2.1.3. Sensing when lightbulb is blown to alert for replacement
5.2.1.3.1. SENSOR
5.2.1.4. Light Scheduling
5.2.1.4.1. SENSOR
5.2.1.5. Learn and anticipate user behaviors including adjusting for holidays and integrate user preferences dynamically
5.2.1.5.1. machine learning/ai
5.2.1.6. weather forecasts to develop optimum strategies for preheating or cooling the structure
5.2.1.6.1. machine learning/ai
5.2.1.7. About 18% of U.S. electricity consumption and 6% of all U.S. energy consumption is used to provide indoor and outdoor lighting.
5.2.2. Using Data to save energy. 5-10% is easy. maybe more
5.2.2.1. average office can save 18% on its annual whole-building energy consumption by installing smart sensor technology. (ACEEE report Smart Buildings: A Deeper Dive into Market Segments )
5.2.2.1.1. SENSOR
5.2.2.2. geofencing: certain facilities or devices can be powered on only when required. ie. when the staff get in/out of range power will switch on/off
5.2.2.2.1. SENSOR
5.2.3. Device Management
5.2.3.1. See what devices use the most energy
5.2.3.1.1. SENSOR
5.2.3.1.2. Smart outlets - easy retrofit
5.2.3.2. Regulate Energy Consumption
5.2.3.2.1. SENSOR
5.2.3.3. Using energy harvesting, radio technologies to power wireless sensors (no batteries required, no hardwired power for sensors, no additional overhead for sensor power costs)
5.2.3.3.1. SENSOR
5.2.3.4. Dashboard can suggest ways to optimise (through turning off devices during quiet periods, adjusting HVAC, etc). calculate and display energy/cost savings?
5.2.4. Digital Evidence Energy Management
5.3. Evacuation
5.3.1. Procedure via geofencing, lighting
5.3.1.1. Evacuation Procedure
5.3.1.1.1. Zones of building
5.3.1.1.2. Based on location of emergency
5.3.1.1.3. Geofencing
5.3.1.1.4. Increasing lighting for clear vision during evacuation
5.4. Cloud
5.4.1. Storage of all information
5.4.1.1. Super Dashboard
5.4.1.2. Mega Dashboard
5.4.1.3. IOT Sensor Information
5.5. Robotic and AI Process Automation
5.5.1. OR-2
5.5.1.1. Installed at all areas whereby a QR code is required for entrance and temperature check
5.5.2. OR-3
5.5.2.1. Applied in all outdoor settings that require on the move surveillance
5.5.3. OR-X
5.5.3.1. Applied in all areas when the building is closed or offices are secure to prevent people from coming in
5.5.4. Camello
5.5.4.1. Last Mile Delivery per
5.5.4.1.1. Building
5.5.4.1.2. Office
5.5.4.1.3. Per Floor
5.6. Water Management
5.6.1. Pipe Leakage
5.6.1.1. Drop in water pressure
5.6.1.1.1. SENSOR
5.6.1.1.2. Water leak
5.6.1.2. Increase in water pressure
5.6.1.2.1. SENSOR
5.6.1.2.2. Decrease in size of pipe pass through area
5.6.1.3. Purity of water itself
5.6.1.3.1. SENSOR
5.6.1.3.2. Hygeine
5.6.2. Digital Evidence Water Management
5.7. Lift Management
5.7.1. Lift on standby based on most visited floors
5.7.1.1. SENSOR
5.8. Waste Management
5.8.1. Track when rubbish bins are full. Both small and large
5.8.1.1. SENSOR
5.8.2. Digital Evidence Cleaning
5.9. Landscaping
5.9.1. Grass cutting
5.9.2. Soil Nodes
5.9.2.1. SENSOR
5.9.2.2. Knowing the quality of the land that you are on.
5.10. ADVANTAGES
5.10.1. Humans don't need to do the things that they don't feel motivated to do in certain types of nations that are of more wealth.
5.10.2. Reduction
5.10.2.1. Time
5.10.2.2. Manpower
5.10.2.2.1. Less Management
5.10.2.3. Cost
5.10.2.3.1. Less energy used
5.10.2.3.2. Less Personnel
5.10.3. Increase
5.10.3.1. Efficiency
5.10.3.2. Less time, lest cost, less people
6. Covid Management
6.1. Contactless Technology
6.1.1. Heat sensor to open doors with NO security required
6.1.1.1. SENSOR
6.1.2. Retina Scan for Doors requiring security
6.1.2.1. SENSOR
6.1.3. Facial Recognition
6.1.3.1. SENSOR
6.1.4. OR-2
6.1.4.1. Taking temperature
6.1.4.1.1. SENSOR
6.1.4.2. Signing in for contact tracing
6.1.5. Being able to sense for Coronavirus, in the air?!
7. Super Dashboard
7.1. Simple & Clean GUI Design
7.2. Control over every single Sensor and Category on this page
8. Notes
8.1. Machine Learning
9. OTHER IDEAS
9.1. Supply Chain Process
9.2. Transportation
9.3. Smartphone App to control Level 1 services
9.4. Autonomy is not built into current generation IOT
9.4.1. More thoughts and ideas on this would be great
10. WELNESS
10.1. Science Based
10.2. Basic Elements for common areas
10.2.1. Increasing happiness and efficiency
10.2.2. Using smells, lighting, and nutrition to get the very best out of your manpower through environmental conditions, hygiene
10.3. Advanced Options
10.3.1. Chosen Resilience Plan
10.4. CHOSEN RESILIENCE IN PARTNERSHIP WITH PARLEY
10.4.1. Northstar sees a big potential for efficiency to be achieved by providing Corporate wellness training to enhance personal organisation, nutrition, exercise, a healthy lifestyle via science based courses. Strategic resilience in a challenge world where we can help enhance the performance of individuals. Online courses can also be available on the Northstar Super Dashboard and APP for manpower and personnel
10.4.1.1. a. Human Connection
10.4.1.2. b. Imagination & Muscle Memory
10.4.1.3. c. Positivity
10.4.1.4. d. Cortisol
10.4.1.5. e. Blood/Sugar
10.4.1.6. f. Emotions
10.4.1.7. g. Flow State
10.4.1.8. h. Microbiome & Gut-Brain Axis
10.4.1.9. I. Negative Bias
10.4.1.10. j. Play