Podcast
Questions and Answers
Which approach to data collection is motivated by accuracy?
Which approach to data collection is motivated by accuracy?
- Target-Driven Approaches
- Data collection motivated by the time criticality (correct)
- Energy Demands-Motivated
- All of the above
What parameters determine the frequency of data collection motivated by accuracy?
What parameters determine the frequency of data collection motivated by accuracy?
- Energy consumption concerns
- Time criticality
- Data precision (correct)
- All of the above
Which approach to data collection is motivated by time criticality?
Which approach to data collection is motivated by time criticality?
- Target-Driven Approaches
- Data collection motivated by accuracy (correct)
- Energy Demands-Motivated
- All of the above
What is the purpose of timestamps associated with readings in data collection motivated by time criticality?
What is the purpose of timestamps associated with readings in data collection motivated by time criticality?
Which approach to data collection is motivated by energy consumption concerns?
Which approach to data collection is motivated by energy consumption concerns?
Data collection tailored based on specific use case requirements. Varied requirements like energy consumption, accurate data, and ______ protection. Methods: filtering, compression, interpretation, aggregation, etc.
Data collection tailored based on specific use case requirements. Varied requirements like energy consumption, accurate data, and ______ protection. Methods: filtering, compression, interpretation, aggregation, etc.
Frequency of data collection based on required ______ levels. Data precision as a critical parameter determining collection frequency. Frequency determined by required data precision for desired accuracy.
Frequency of data collection based on required ______ levels. Data precision as a critical parameter determining collection frequency. Frequency determined by required data precision for desired accuracy.
Frequency determined by ______ criticality. Maximum delay value fixed between two measurements. Frequency based on time criticality, ensuring maximum delay value adherence. Timestamps associated with readings to maintain data transmission within set delay.
Frequency determined by ______ criticality. Maximum delay value fixed between two measurements. Frequency based on time criticality, ensuring maximum delay value adherence. Timestamps associated with readings to maintain data transmission within set delay.
Frequency decided based on ______ consumption concerns. Balancing accuracy needs and acceptable energy consumption.
Frequency decided based on ______ consumption concerns. Balancing accuracy needs and acceptable energy consumption.
Data collection approaches: 1. ______-Driven Approaches To data collection: Data collection tailored based on specific use case requirements. Varied requirements like energy consumption, accurate data, and privacy protection. Methods: filtering, compression, interpretation, aggregation, etc.
Data collection approaches: 1. ______-Driven Approaches To data collection: Data collection tailored based on specific use case requirements. Varied requirements like energy consumption, accurate data, and privacy protection. Methods: filtering, compression, interpretation, aggregation, etc.
