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doc.:1900.7-13/0040r0
Submission Slide 1
19/04/23
Slide 1
IEEE 1900.7 White Space RadioFinal Use Cases
Notice: This document has been prepared to assist IEEE DYSPAN SC. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein.
Release: The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE DYSPAN SC.
Patent Policy and Procedures: The contributor is familiar with the IEEE Patent Policy and Procedures <http:// ieee802.org/guides/bylaws/sb-bylaws.pdf>, including the statement "IEEE standards may include the known use of patent(s), including patent applications, provided the IEEE receives assurance from the patent holder or applicant with respect to patents essential for compliance with both mandatory and optional portions of the standard." Early disclosure to the Working Group of patent information that might be relevant to the standard is essential to reduce the possibility for delays in the development process and increase the likelihood that the draft publication will be approved for publication. Please notify the Chair <[email protected]> as early as possible, in written or electronic form, if patented technology (or technology under patent application) might be incorporated into a draft standard being developed within IEEE DYSPAN SC. If you have questions, contact the IEEE Patent Committee Administrator at <[email protected]>.
Date: July-29-2013
Name Company Address Phone Email
Hoang Vinh-Dien, Xin Zhang, Zhou Ming-Tuo, Hiroshi Harada
NICT [email protected], [email protected], [email protected], [email protected]
Richard MacKenzie BT [email protected]
Paweł Kryszkiewicz, Adrian Kliks, Hanna Bogucka
PUT [email protected], [email protected], [email protected]
Oliver Holland KCL [email protected]
Faouzi Bader CTTC [email protected]
Muhammad Aljuaid Saudi Aramco Dhahran, Saudi Arabia
+96638800008 [email protected]
Dongming Li, Caili Guo, Yuting Guo, Xiaoming Li, Yao Liu
BUPT Beijing, China +8601062283238
Authors:
doc.:1900.7-13/0040r0
Submission Slide 2
Summary of Use Cases Following categories of use cases are identified
■ Wireless backbone networks• Wireless access backbone network
• Wireless mesh backbone network
• High speed vehicular backbone network
• Rural broadband network
• Drilling Rigs Use Case
■ Land fixed/mobile networks• Smart home network
• Digital signage network
• Transportation logistics network
• Wireless access network
■ Maritime networks• Maritime wireless access network
• Inter-ship mesh network
• Maritime grid network
19/04/23
■ Home/office networks• Home/office Network
• Indoor network
■ Femto-cell network/vertical handover• Smart Office/Company Network (Fem-tocells approach)
• Vertical handover
• White Space Support
■ Internet of Things Use Cases• Hydrologic Monitoring.
• Crane Security Monitoring.
• Forestry Monitoring.
doc.:1900.7-13/0040r0
Submission Slide 3
I. Wireless Backbone Networks This category includes four use cases
■ Wireless Access Backbone Network• High data rate wireless access network serving as a backbone network for fixed
stations that provide wireless/wired access service to their users
■ Wireless Mesh Backbone Network• High data rate mesh backbone network connecting fixed stations that provide
wireless/wired access service to their users
■ High Speed Vehicle Backbone Network• High data rate backbone network for high speed vehicles
■ Rural broadband network• Broadband access to homes
■ Drilling Rigs Use case• Network access for Drilling Rigs
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 4
Wireless Access Backbone Network White space radio is used to provide high data rate wireless
access network serving as a backbone network for fixed stations that provide wireless/wired access service to their users
Potential applications■ Campus connectivity
■ Enterprise connectivity
■ Dynamic backhaul
■ Quick-to-deploy temporary networks
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 5
Wireless Access Backbone Network19/04/23
School ofEngineering
School ofSocial Sciences
Library
School of Architecture and
Planning
WS RadioBase Station
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 6
Wireless Access Backbone Network19/04/23
Propagation environmentOutdoor LOS, NLOS
Outdoor to indoor LOS, NLOS
Peak data rate per terminal 30 Mbps
Expected Base Station Aggregate Data Rate 30 Mbps
Maximum transmission range 10 km
Maximum mobility speed fixed
Tolerable delay High
Security level High
Number of terminals per base station (1) 5-10
(1) Number of terminals per base station is the number of connected devices (active and in sleep mode) .
doc.:1900.7-13/0040r0
Submission Slide 7
Wireless Access Backbone Network WS Radio Base Station is fixed WS Radio Terminals are fixed
19/04/23
WS RadioBase Station
WS RadioTerminal
WS WS
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 8
Wireless Mesh Backbone Network White space radio is used to provide high data rate mesh
backbone network connecting fixed stations that provide wireless/wired access service to their users
Potential applications■ Campus connectivity
■ Enterprise connectivity
■ Quick-to-deploy temporary networks
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 9
Wireless Mesh Backbone Network19/04/23
School ofEngineering
School ofSocial Sciences
Library
School of Architecture and
PlanningWS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 10
Wireless Mesh Backbone Network19/04/23
Propagation environmentOutdoor LOS, NLOS
Outdoor to indoor NLOS
Peak data rate per terminal 20 Mbps
Expected Base Station Aggregate Data Rate
N/A
Maximum transmission range 5 km
Maximum mobility speed fixed
Tolerable delay High
Security level High
Number of terminals per base station 5 – 10
doc.:1900.7-13/0040r0
Submission Slide 11
Wireless Mesh Backbone Network WS Radio Terminals are fixed
19/04/23
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
doc.:1900.7-13/0040r0
Submission Slide 12
High Speed Vehicle Backbone Network White space radio is used to provide high data rate backbone
network for high speed vehicles Potential applications
■ Backbone network for high-speed trains
■ Backbone network for long distance buses
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 13
High Speed Vehicle Backbone Network19/04/23
WS RadioBase Station
WS RadioRelay Station
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 14
High Speed Vehicle Backbone Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 Mbps
Expected Base Station Aggregate Data Rate 30 Mbps
Maximum transmission range 10 km
Maximum mobility speed 300 km/h
Tolerable delay Medium
Security level Medium
Number of terminals per base station 1-10
doc.:1900.7-13/0040r0
Submission Slide 15
High Speed Vehicle Backbone Network WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are mobile
19/04/23
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 16
Rural Broadband network White space radio is used to provide broadband access to homes. Base stations are fixed Home terminals are fixed Distribution around homes is not part of this use case (possibly
home/office network solution later in this document)
doc.:1900.7-13/0040r0
Submission Slide 18
Rural Broadband network
Propagation environmentOutdoor LOS, NLOS
Outdoor to indoor LOS, NLOS (possibly)
Peak data rate per terminal 30 Mbps
Expected Base Station Aggregate Data Rate 30 Mbps
Maximum transmission range 10 km
Maximum mobility speed Fixed
Tolerable delay High
Security level High
Number of terminals per base station 30
doc.:1900.7-13/0040r0
Submission Slide 19
Drilling Rigs Use Case White space radio could be used to provide high data rate
network access for drilling rigs operating in remote areas. Potential applications
■ Quick-to-deploy temporary networks
■ Remote Monitoring
■ Video Streaming
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 21
19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 Mbps
Expected Base Station Aggregate Data Rate
30 Mbps
Maximum transmission range 20 km
Maximum mobility speed Portable
Tolerable delay Medium
Security level High
Number of terminals per base station 5 – 10
Drilling Rigs Use Case
doc.:1900.7-13/0040r0
Submission
WS Radio Base Station is fixed WS Relay Stations are fixed/Portable WS Radio Terminals are Portable
Slide 22
19/04/23
Drilling Rigs Use Case
doc.:1900.7-13/0040r0
Submission Slide 23
II. Land Fixed/Mobile Networks This category includes three use cases
■ Smart Home Networks• Low data rate network for collecting data from low power consumption
stations gathering measurements from utility devices (e.g., gas, water, and electricity meters)
■ Digital Signage Network• Distribution network for digital signs
■ Transportation Logistics Network• Low data rate network for tracking and controlling mobile stations (e.g., post
delivery vehicles)
■ Mobile Wireless Access Network• Providing wireless access to mobile stations
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 24
Smart Home Network
White space radio is used to provide low data rate network for collecting data from low power consumption stations gathering measurements from devices, e.g., gas, water, electricity meters, and to control such devices from a server
Potential applications■ Smart metering
■ Monitoring and control
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 25
Smart Home Networks19/04/23
Apartment BuildingPrivate House
WS RadioRelay Station
WS RadioRelay Station
WS RadioBase Station
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 26
Smart Home Network19/04/23
Propagation environmentOutdoor LOS, NLOS
Outdoor to indoor NLOS
Peak data rate per terminal 10 kbps
Expected Base Station Aggregate Data Rate 10 Mbps
Maximum transmission range 10 km
Maximum mobility speed Fixed
Tolerable delay High
Security level High
Number of terminals per base station 100-1000
doc.:1900.7-13/0040r0
Submission Slide 27
Smart Home Network WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are fixed
19/04/23
W
S
WS RadioBase Station
WS RadioRelay Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 28
Digital Signage Network White space radio is used to provide data distribution network for
digital signs Potential applications
■ Digital signage
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 29
Digital Signage Network19/04/23
WS RadioBase Station
WS RadioRelay Station
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 30
Digital Signage Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 1 Mbps
Expected Base Station Aggregate Data Rate 10 Mbps
Maximum transmission range 10 km
Maximum mobility speed Fixed
Tolerable delay High
Security level High
Number of terminals per base station 10-100
doc.:1900.7-13/0040r0
Submission Slide 31
Digital Signage Network WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are fixed
19/04/23
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 32
Transportation Logistics Network White space radio is used to provide low data rate network for
tracking and controlling mobile stations, e.g., post delivery vehicles
Potential applications■ Public transportation logistics
■ Control and management of postal and delivery services
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 33
Transportation Logistics Network19/04/23
WS RadioBase Station
WS RadioBase Station
WS RadioBase Station
WS RadioRelay Station
WS RadioTerminal
WS RadioTerminal
Delivery CarDelivery Car
WS RadioTerminal
Delivery CarBus
WS RadioTerminal
WS RadioTerminal
Bus
doc.:1900.7-13/0040r0
Submission Slide 34
Transportation Logistics Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 kbps
Expected Base Station Aggregate Data Rate
10 Mbps
Maximum transmission range 10 km
Maximum mobility speed 120 km/h
Tolerable delay High
Security level High
Number of terminals per base station 100-1000
doc.:1900.7-13/0040r0
Submission Slide 35
Transportation Logistics Network WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are mobile
19/04/23
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 36
Mobile Wireless Access Network White space radio is used to provide wireless access to mobile
stations Potential applications
■ Mobile wireless access
■ Cellular network extension to white space
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 37
Mobile Wireless Access Network19/04/23
WS RadioBase Station
WS RadioRelay Station
Car
Car
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 38
Mobile Wireless Access Network19/04/23
Propagation environmentOutdoor LOS, NLOS
Outdoor to indoor NLOS
Peak data rate per terminal 5 Mbps
Expected Base Station Aggregate Data Rate 10 Mbps
Maximum transmission range 5 km
Maximum mobility speed 120 km/h
Tolerable delay Low
Security level Medium
Number of terminals per base station 10-100
doc.:1900.7-13/0040r0
Submission Slide 39
Mobile Wireless Access Network WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are mobile and pedestrian
19/04/23
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 40
III. Maritime Networks This category includes three use cases
■ Maritime Wireless Access Network• Providing wireless access to ships and connecting ships with each other
■ Inter-ship Mesh Network• Mesh network connecting stations located on ships
■ Maritime Grid Network• Low data rate network collecting data from marine environment monitoring
stations, oil/gas platforms, etc
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 41
Maritime Wireless Access Network White space radio is used to provide maritime wireless access
network Potential applications
■ Wireless access for ship crew and passengers
■ Fleet and seaport management
■ Inter-ship communications
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 42
Maritime Wireless Access Network19/04/23
WS RadioBase Station
WS RadioBase Station
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 43
Maritime Wireless Access Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 Mbps
Expected Base Station Aggregate Data Rate
10 Mbps
Maximum transmission range 20 km
Maximum mobility speed 60 km/h
Tolerable delay Low
Security level Medium
Number of terminals per base station several-10
doc.:1900.7-13/0040r0
Submission Slide 44
Maritime Wireless Access Network WS Radio Base Station is fixed WS Radio Terminals are mobile
19/04/23
WS
WS RadioBase Station
WS
WS RadioTerminal
WS RadioTerminal
WS
doc.:1900.7-13/0040r0
Submission Slide 45
Inter-ship Mesh Network White space radio is used to provide mesh network connecting
stations located on ships Potential applications
■ Fleet management
■ Inter-ship communications
■ Disaster rescue
■ Anti-piracy
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 46
Inter-ship Mesh Network19/04/23
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 47
Inter-ship Mesh Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 5 Mbps
Expected Base Station Aggregate Data Rate
N/A
Maximum transmission range 20 km
Maximum mobility speed 60 km/h
Tolerable delay Low
Security level Medium
Number of terminals several-10
doc.:1900.7-13/0040r0
Submission Slide 48
Inter-ship Mesh Network WS Radio Terminals are mobile
19/04/23
WS RadioTerminal
WS RadioTerminal
WS
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 49
Maritime Grid Network White space radio is used to provide low data rate network
collecting data from marine environment monitoring stations, oil/gas platforms, etc
Potential applications■ Seaport management
■ Control and management of oil platforms, sea farms
■ Marine environment monitoring and data collection
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 51
Maritime Grid Network19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 Mbps
Expected Base Station Aggregate Data Rate
30 Mbps
Maximum transmission range 20 km
Maximum mobility speed Fixed/Mobile
Tolerable delay High
Security level High
Number of terminals per base station 100-1000
doc.:1900.7-13/0040r0
Submission Slide 52
Maritime Grid Network19/04/23
WS Radio Base Station is fixed WS Radio Relay Stations are fixed WS Radio Terminals are fixed, mobile
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 53
IV. Home/Office Network White space radio is used to provide wireless access inside home
or office Potential applications
■ Wireless access inside office
■ Wireless access inside home
■ Inside-to-outside coverage
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 54
Indoor Networks This category includes one use case
■ Indoor Network• Providing wireless access inside office or home
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 55
Home/Office Network19/04/23
WS RadioTerminal
WS RadioBase Station
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 56
Indoor Network19/04/23
Propagation environmentIndoor LOS, NLOS
Outdoor to indoor LOS, NLOS
Peak data rate per terminal 10 Mbps
Expected Base Station Aggregate Data Rate 30 Mbps
Maximum transmission range 300 m
Maximum mobility speed 4 km/h
Tolerable delay Medium
Security level Medium
Number of terminals per base station 1-10
doc.:1900.7-13/0040r0
Submission Slide 57
Indoor Network WS Radio Base Station is fixed WS Radio Terminals are pedestrian
19/04/23
WSWS Radio
Base Station
WS
WS RadioTerminal
WS RadioTerminal
doc.:1900.7-13/0040r0
Submission Slide 58
V. Femto-cell network/vertical handover
This category includes three use cases Smart Office/Company Network (Fem-to cells approach) Vertical handover White Space Support
doc.:1900.7-13/0040r0
Submission Slide 59
White Space Radio should provide seamless connection for mobile users moving within the building or walking/driving through the territory belonging to one company
The use of femtocells, deployed in the office or on the buildings of a company, is considered
White Space Radio should support handover between neighboring femtocells and/or simultaneous connection with more than two transmitters (base station or relay)
Example: the worker of a company is making a call via femtocell and is walking along the corridors inside the building and then continues his walk between different building of one company.
Such a use-case might be extended, e.g. to providenear-ubiquitous service in urban scenarios etc.
Smart Office/Company Network(Femtocells approach)
doc.:1900.7-13/0040r0
Submission Slide 60
Smart Office/Company Network(Femtocells approach)
•WS BS •WS BS •WS R
•WS BS
•WS R
•WS BS – White Space Base Station•WS R – White Space Relay•WS MT – White Space Mobile Terminal
•WS BS •WS BS
•WS R•WS R
•WS MT •WS MT
•WS MT
doc.:1900.7-13/0040r0
Submission Slide 61
Propagation environment Indoor/Outdoor, LOS, NLOS
Expected data rate 10Mbps, as for voice/video connection
Maximum transmission range
Hundreds of meters
Maximum mobility speed 50km/h
Tolerable delay Medium
Security level Medium
Need of handover Yes, at least with two BS
Smart Office/Company Network(Femtocells approach)
doc.:1900.7-13/0040r0
Submission Slide 62
White Space Radio should support handover between pirmary and secondary networks
Base Stations are fixed while Mobile Terminals can move Connection between WS BS and BS can be realized using
white-spaces or regular transmission
Vertical handover
•WS BS • BS
•WS BS – White Space Base Station•WS MT – White Space Mobile Terminal•RC – Regular Connection•WS C – White Space Connection
•WS MT
•WS BS • BS
•WS MT
•RC/WSC
•WSC •RC •WSC •RC
doc.:1900.7-13/0040r0
Submission Slide 63
Vertical handover
Propagation environment Outdoor, LOS, NLOS
Expected data rate 10Mbps, as for voice/video connection
Maximum mobility speed 50km/h
Tolerable delay Medium
Security level Medium
Need of handover Yes, at least with two BS
doc.:1900.7-13/0040r0
Submission Slide 64
White Space Device should simultaneously use licenced and non-licenced connection; white-space connection acts as a support for the licenced one
White Space Support
•WS BS – White Space Base Station•WS MT – White Space Mobile Terminal•RC – Regular Connection•WS C – White Space Connection
•WS BS / BS
•WS C•RC
doc.:1900.7-13/0040r0
Submission Slide 65
White Space Device should simultaneously use licenced and non-licenced connection; white-space connection acts as a support for the licenced one
White Space Support
Propagation environment Indoor/Outdoor, LOS, NLOS
Expected data rate 5Mbps, white space connection acts as a support
Maximum mobility speed 50km/h
Tolerable delay Medium
Security level Medium
doc.:1900.7-13/0040r0
Submission
VI. Internet of Things Use Cases
Slide 66
Proposing the use of TV White Space communications to provide network access for the following Internet of Things applications: Hydrologic Monitoring. Crane Security Monitoring. Forestry Monitoring.
doc.:1900.7-13/0040r0
Submission Slide 67
Wireless Access Network for Hydrologic Monitoring
White space radio could be used to provide high data rate network access for hydrologic monitoring operating in remote areas.
Potential applications■ Quick-to-deploy temporary networks
■ Remote Monitoring
■ Video Streaming
■ Quality, Quantity and Temperature Surveillance
19/04/23
doc.:1900.7-13/0040r0
Submission Slide 68
19/04/23
Wireless Access Network for Hydrologic Monitoring
doc.:1900.7-13/0040r0
Submission Slide 69
19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 10 Kbps
Maximum transmission range 15km
Maximum mobility speed Fixed/Portable
Tolerable delay Low
Security level Medium
Number of terminals per base station 100-1000
Wireless Access Network for Hydrologic Monitoring
doc.:1900.7-13/0040r0
Submission
WS Radio Base Station is fixed
WS Relay Stations are fixed
WS Radio Terminals are fixed/mobile
Slide 70
19/04/23
Wireless Access Network for Hydrologic Monitoring
doc.:1900.7-13/0040r0
Submission
Crane Security Monitoring Wireless communication in the field of crane security mon
itoring is needed to ensure independently or cooperatively safe operation. TV White Space is promising in this case.
Firstly, equipments should send real-time video data to the control room, which is necessary when investigating the cause of accidents. Secondly, equipments should send warning message to technician when something is dangerous. Thirdly, equipments working together should keep communication to avoid collisions.
TV White Space can alleviate spectrum congestion in ISM band, and provide smaller transmission loss and higher QoS.
Slide 71
doc.:1900.7-13/0040r0
Submission
Crane Security Monitoring Network
Slide 72
Large container handling safety monitoring
Tower crane safety monitoring
Truck crane safety monitoring
doc.:1900.7-13/0040r0
Submission
Crane Security Monitoring Network ~Topology~
Slide 73
•WS Radio Base Station is fixed•Control room is fixed•WS Radio Terminal 1 is fixed•WS Radio Terminal 2 is portable
doc.:1900.7-13/0040r0
Submission
Crane Security Monitoring Network~System Parameter Requirements~
Slide 74
Propagation environment Outdoor LOS/NLOS
Data rate 30 Mbps
Range 1km
Mobility Fixed
Latency requirement High
Security level Medium
Reliability requirement High
Application examplesTower crane safety monitoring, truck crane safety monitoring, large container handling safety monitoring
doc.:1900.7-13/0040r0
Submission Slide 75
White space radio could be used to provide low data rate and high reliability forestry monitoring.
Potential applications■ Ecological Monitoring
■ Disaster Warning and Rescue
■ Natural Resource Management and Conservation
19/04/23
Wireless Access Network for Forestry Monitoring
doc.:1900.7-13/0040r0
Submission Slide 77
19/04/23
Propagation environment Outdoor LOS, NLOS
Peak data rate per terminal 250 kbps
Expected Base Station Aggregate Data Rate
10 Mbps
Maximum transmission range 10km
Maximum mobility speed Fixed
Tolerable delay Low
Security level High
Number of terminals per base station 100-1000
Wireless Access Network for Forestry Monitoring
doc.:1900.7-13/0040r0
Submission Slide 78
19/04/23
Wireless Access Network for Forestry Monitoring
WS Radio Base Station is fixed WS Relay Stations are fixed/portable WS Radio Terminals are fixed/portable
WS
WS RadioBase Station
WS RadioRelay Station
WS
WS RadioTerminal
WS RadioTerminal
WS RadioTerminal
WS
WS
doc.:1900.7-13/0040r0
Submission Slide 79
19/04/23
The contributions of R. MacKenzie have the following acknowledgement: “The research
leading to this presentation was derived from the European Community’s Seventh Framework Programme (FP7) under Grant Agreement number 248454 (QoSMOS)”
The contributions of Adrian et al. have the following acknowledgement: “This contribution was partially supported by the ICT-ACROPOLIS Network of Excellence, FP7 project number 257626. The views expressed are those of the authors and not necessarily reflective of the views of the ACROPOLIS consortium”