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5G brings the possibility of faster and safer operation as well as new capabilities and efficiencies in industrial processes, but it also comes with increased complexity and performance demands for the network. Accurate and insightful testing at every phase of the mobile network to prepare, deploy and operate smart factories enables faster rollout, efficient use of network resources and awareness of issues before they become critical. How testing makes factories smart Applying 5G for smart factories The fast, reactive and fully connected capabilities of 5G networks enable smart factories (Industry 4.0) to provide an agile, adaptable and automated manufacturing and warehouse environment. 5G is able to address different application requirements of smart factories with an extremely flexible technology. Initial implementations of smart factories focus on eMBB use cases such as virtual reality (VR) to deliver rich information about objects and systems and to remotely control them. The URLLC part of 5G and mobile edge computing enables real-time control of manufacturing and warehousing processes whereas artificial intelligence techniques enable systems to “learn” from their experiences to make smarter and more reliable decisions. In a hyper-connected environment, devices and assets can be used for tracking and efficient use of inventory. With 5G, you can deploy a dedicated private campus network and separate a single physical network into virtual slices, which supports the allocation of appropriate network resources to match a specific usage. SMART FACTORY BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION 24/7 REAL-TIME SERVICE QUALITY MONITORING Continuous acquisition and analysis of network quality data from the end user (including machine) perspective 4 COVERAGE AND PERFORMANCE TESTING Walk test inside factory to ensure the required connectivity and to measure the end-user and machine quality of experience (QoE) 3 BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION SITE ACCEPTANCE TESTING Testing the operation of new base stations including functional tests, RF analysis and signal decoding 2 BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION BASE STATION ROLLOUT PREPARATION Spectrum clearance and interference hunting in relevant frequency bands inside the factory 1 L o w c o m p l e x i t y E x t e n d e d c o v e r a g e H i g h c o n n e c t i o n d e n s i t y E n e r g y e f c i e n c y E x t r e m e t h r o u g h p u t E n h a n c e d s p e c t r a l e f c i e n c y E x t e n d e d c o v e r a g e L o w l a t e n c y U lt r a r e li a b i l i t y L o c a t i o n p r e c i s i o n Ultra-Reliable Low Latency Communications Strict requirements on latency and reliability for mission criticial communications enabling vertical applications like industrial IoT, autonomous vehicles or the tactile internet. massive Machine Type Communications Need to support in a very small area a very large number of devices, which may only send data sporadically, such as internet of things (IoT) use cases. enhanced Mobile Broadband Data-driven use cases require high data rates across a wide coverage area. eMBB URLLC mMTC 3D data collection Some setups such as multi-level warehouses need to collect data in three dimensions. The data collection tool, normally mounted on a drone, enables measurement at various levels. My frequency 1 2 3 Identify interferers Measure relevant frequency bands using walk test and drones to identify interferers. A Eliminate interferers Request interference source to be switched off or report to regulator. C Locate interferers Locate source of interfering signals. B B OTA RF signal verification Visualize the transmitted signal to verify correct 5G transmission, including SSBs. B Network optimization Optimization by modifying the network configuration, for example base station position, power- or beam-specific parameters. + A Functional testing Measure download, upload and round-trip time performance from end user perspective. Regulatory compliance Periodic check of the RF environment to ensure compliance with the terms of a private network licence, for example to keep transmission of signals outside of the factory within specified limits. C Signal decoding Verify PCI, SSB and SIB information for 5G and LTE anchor signals. Troubleshoot specific parameters (e.g. SINR). QualiPoc Android smartphone SmartMonitor network monitoring software Clean RF environment inside factory Correctly installed network infrastructure Verified coverage and performance Continuous monitoring of network performance and awareness of issues R&S®ROMES4 optimization software R&S®FPH spectrum analyzer R&S®MNT100 handheld receiver ROLLOUT PREPARATION Products 1 2 3 4 SITE ACCEPTANCE TESTING COVERAGE AND PERFORMANCE TESTING 24/7 REAL-TIME SERVICE QUALITY MONITORING QualiPoc Android probe smartphone R&S®TSMx6 scanning receiver R&S®FPH spectrum analyzer R&S®5G STS site testing solution R&S®TSMx6 scanning receiver QualiPoc Android smartphone Activity Result SmartAnalytics software Learn more about our services and products and how to upgrade your company to become a smart factory www.rohde-schwarz.com/mnt/smart-factory A Coverage and performance analysis Test 5G connectivity including sufficient redundancy. Collect data using portable hardware platform, then analyze with data analytics software in control room. A Continuous data collection Multiple RF probes are placed inside the factory at fixed locations and on automated guided vehicles (AGV) to report network quality in real time. B Real-time QoE monitoring Ensure network performance is within defined thresholds. Deviations from the required QoE are visualized in a dashboard. 5G SMART FACTORIES brings to a new level C Data analytics Machine learning algorithms are used to identify trends and detect anomalies.

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© Rohde & Schwarz5G brings the possibility of faster and safer operation as well as new capabilities and efficiencies in industrial processes, but it also comes with increased
complexity and performance demands for the network. Accurate and insightful testing at every phase of the mobile network to prepare, deploy and operate smart factories enables faster rollout, efficient use of network resources and
awareness of issues before they become critical.
How testing makes factories smart
Applying 5G for smart factories The fast, reactive and fully connected capabilities of 5G networks enable smart factories (Industry 4.0) to provide an agile, adaptable and automated manufacturing and warehouse environment. 5G is able to address different application requirements of smart factories with an extremely flexible technology. Initial implementations of smart factories focus on eMBB use cases such as virtual reality (VR) to deliver rich information about objects and systems and to remotely control them. The URLLC part of 5G and mobile edge computing enables real-time control of manufacturing and warehousing processes whereas artificial intelligence techniques enable systems to “learn” from their experiences to make smarter and more reliable decisions. In a hyper-connected environment, devices and assets can be used for tracking and efficient use of inventory. With 5G, you can deploy a dedicated private campus network and separate a single physical network into virtual slices, which supports the allocation of appropriate network resources to match a specific usage.
SMART
FACTORY
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
data fro m the end user (in
cluding machine) perspective
COVERAGE AND
PERFORMANCE TESTING
Walk test in side factory to ensure the required connectivity and
to measure the end-user and machine quality of experience (QoE)
3
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
2
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
relevant fr equency bands inside the factory
1
y ef
fic ie
n cy
Ex tr
em e
th ro
ug hp
ed coverage
reliability for mission criticial communications enabling vertical
applications like industrial IoT, autonomous vehicles or the
tactile internet.
massive Machine Type Communications
Need to support in a very small area a very large number of
devices, which may only send data sporadically, such as
internet of things (IoT) use cases.
enhanced Mobile Broadband
Data-driven use cases require high data rates across a wide
coverage area.
eMBB
URLLCmMTC
3D data collection Some setups such as multi-level warehouses need to collect data in three dimensions. The data collection tool, normally mounted on a drone, enables measurement at various levels.
My frequency
1
2
3
Identify interferers Measure relevant frequency bands using walk test and drones to identify interferers.
A
Eliminate interferers Request interference source to be switched off or report to regulator.
C Locate interferers Locate source of interfering signals.
B
B OTA RF signal verification Visualize the transmitted signal to verify correct 5G transmission, including SSBs.
+
A Functional testing Measure download, upload and round-trip time performance from end user perspective.
Regulatory compliance Periodic check of the RF environment to ensure compliance with the terms of a private network licence, for example to keep transmission of signals outside of the factory within specified limits.
C Signal decoding Verify PCI, SSB and SIB information for 5G and LTE anchor signals. Troubleshoot specific parameters (e.g. SINR).
QualiPoc Android smartphone
SmartMonitor network monitoring
Correctly installed network
ROLLOUT PREPARATION
ACCEPTANCE TESTING
R&S®5G STS site testing solution
R&S®TSMx6 scanning receiver
QualiPoc Android smartphone
SmartAnalytics software
Learn more about our services and products and how to upgrade your company to become a smart factory
www.rohde-schwarz.com/mnt/smart-factory
A Coverage and performance analysis Test 5G connectivity including sufficient redundancy. Collect data using portable hardware platform, then analyze with data analytics software in control room.
A Continuous data collection Multiple RF probes are placed inside the factory at fixed locations and on automated guided vehicles (AGV) to report network quality in real time.
B Real-time QoE monitoring Ensure network performance is within defined thresholds. Deviations from the required QoE are visualized in a dashboard.
5G SMART
FACTORIES brings
to a new levelC Data analytics Machine learning algorithms are used to identify trends and detect anomalies.
3 6 0 8 5 2 8 7 8 2
5G brings the possibility of faster and safer operation as well as new capabilities and efficiencies in industrial processes, but it also comes with increased
complexity and performance demands for the network. Accurate and insightful testing at every phase of the mobile network to prepare, deploy and operate smart factories enables faster rollout, efficient use of network resources and
awareness of issues before they become critical.
How testing makes factories smart
Applying 5G for smart factories The fast, reactive and fully connected capabilities of 5G networks enable smart factories (Industry 4.0) to provide an agile, adaptable and automated manufacturing and warehouse environment. 5G is able to address different application requirements of smart factories with an extremely flexible technology. Initial implementations of smart factories focus on eMBB use cases such as virtual reality (VR) to deliver rich information about objects and systems and to remotely control them. The URLLC part of 5G and mobile edge computing enables real-time control of manufacturing and warehousing processes whereas artificial intelligence techniques enable systems to “learn” from their experiences to make smarter and more reliable decisions. In a hyper-connected environment, devices and assets can be used for tracking and efficient use of inventory. With 5G, you can deploy a dedicated private campus network and separate a single physical network into virtual slices, which supports the allocation of appropriate network resources to match a specific usage.
SMART
FACTORY
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
data fro m the end user (in
cluding machine) perspective
COVERAGE AND
PERFORMANCE TESTING
Walk test in side factory to ensure the required connectivity and
to measure the end-user and machine quality of experience (QoE)
3
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
2
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
BASE
STATION
relevant fr equency bands inside the factory
1
y ef
fic ie
nc y
Ex tre
m e
th ro
ug hp
Low latency • Ultra reliability •
reliability for mission criticial communications enabling vertical
applications like industrial IoT, autonomous vehicles or the
tactile internet.
massive Machine Type Communications
Need to support in a very small area a very large number of
devices, which may only send data sporadically, such as
internet of things (IoT) use cases.
enhanced Mobile Broadband
Data-driven use cases require high data rates across a wide
coverage area.
eMBB
URLLCmMTC
3D data collection Some setups such as multi-level warehouses need to collect data in three dimensions. The data collection tool, normally mounted on a drone, enables measurement at various levels.
My frequency
1
2
3
Identify interferers Measure relevant frequency bands using walk test and drones to identify interferers.
A
Eliminate interferers Request interference source to be switched off or report to regulator.
C Locate interferers Locate source of interfering signals.
B
B OTA RF signal verification Visualize the transmitted signal to verify correct 5G transmission, including SSBs.
+
A Functional testing Measure download, upload and round-trip time performance from end user perspective.
Regulatory compliance Periodic check of the RF environment to ensure compliance with the terms of a private network licence, for example to keep transmission of signals outside of the factory within specified limits.
C Signal decoding Verify PCI, SSB and SIB information for 5G and LTE anchor signals. Troubleshoot specific parameters (e.g. SINR).
QualiPoc Android smartphone
SmartMonitor network monitoring
Correctly installed network
ROLLOUT PREPARATION
ACCEPTANCE TESTING
R&S®5G STS site testing solution
R&S®TSMx6 scanning receiver
QualiPoc Android smartphone
SmartAnalytics software
Learn more about our services and products and how to upgrade your company to become a smart factory
www.rohde-schwarz.com/mnt/smart-factory
A Coverage and performance analysis Test 5G connectivity including sufficient redundancy. Collect data using portable hardware platform, then analyze with data analytics software in control room.
A Continuous data collection Multiple RF probes are placed inside the factory at fixed locations and on automated guided vehicles (AGV) to report network quality in real time.
B Real-time QoE monitoring Ensure network performance is within defined thresholds. Deviations from the required QoE are visualized in a dashboard.
5G SMART
FACTORIES brings
to a new levelC Data analytics Machine learning algorithms are used to identify trends and detect anomalies.
R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG Trade names are trademarks of the owners PD 3608.5287.82 | Version 01.00 | April 2020 (as) 5G brings smat factories to a new level Data without tolerance limits is not binding | Subject to change © 2020 Rohde & Schwarz GmbH & Co. KG | 81671 Munich, Germany3608.5287.82 01.00 P
D P
1 en
Rohde & Schwarz The Rohde & Schwarz electronics group offers innovative solutions in the following business fields: test and mea- surement, broadcast and media, secure communications, cybersecurity, monitoring and network testing. Founded more than 80 years ago, the independent company which is headquartered in Munich, Germany, has an extensive sales and service network with locations in more than 70 countries.
www.rohde-schwarz.com
Certified Environmental Management
ISO 9001
Version 01.00
Service that adds value Worldwide Local und personalized Customized and flexible Uncompromising quality Long-term dependability
5G BRINGS SMART FACTORIES
TO A NEW LEVEL