A Case Study on the Implementation of a Business Monitoring System Using Notifications

Climate change raises serious concerns for policymakers that want to ensure the success of long-term policies. To guarantee satisfactory decisions in the face of deep uncertainties, adaptive policy pathways might be used. Adaptive policy pathways are designed to take actions according to how the future will actually unfold. In adaptive pathways, a monitoring system collects the evidence required for activating the next adaptive action. This monitoring system is made of signposts and triggers. Signposts are indicators that track the performance of the pathway. When signposts reach pre-specified trigger values, the next action on the pathway is implemented. The effectiveness of the monitoring system is pivotal to the success of adaptive policy pathways, therefore the decision-makers would like to have sufficient confidence about the future capacity to adapt on time. “On time” means activating the next action on a pathway neither so early that it incurs unnecessary costs, nor so late that it incurs avoidable damages. In this paper, we show how mapping the relations between triggers and the probability of misclassification errors inform the level of confidence that a monitoring system for adaptive policy pathways can provide. Specifically, we present the “trigger-probability” mapping and the “trigger-consequences” mappings. The former mapping displays the interplay between trigger values for a given signpost and the level of confidence regarding whether change occurs and adaptation is needed. The latter mapping displays the interplay between trigger values for a given signpost and the consequences of misclassification errors for both adapting the policy or not. In a case study, we illustrate how these mappings can be used to test the effectiveness of a monitoring system, and how they can be integrated into the process of designing an adaptive policy.

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Logging mechanism for Internet of Things: A Case Study of Patient Monitoring System

2018 15th International Joint Conference on Computer Science and Software Engineering (JCSSE) ◽

10.1109/jcsse.2018.8457390 ◽

2018 ◽

Cited By ~ 2

Author(s):

Piyawat Maneenual ◽

Sangsuree Vasupongayya

Keyword(s):

Internet Of Things ◽

Monitoring System ◽

Patient Monitoring ◽

Patient Monitoring System

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ALTHIS: Design of An End to End Integrated Remote Patient Monitoring System and a Case Study for Diabetic Patients

2018 Medical Technologies National Congress (TIPTEKNO) ◽

10.1109/tiptekno.2018.8596906 ◽

2018 ◽

Author(s):

Adnan Kavak ◽

A. Burak Inner

Keyword(s):

Monitoring System ◽

Patient Monitoring ◽

Diabetic Patients ◽

Remote Patient Monitoring ◽

Patient Monitoring System ◽

End To End ◽

Remote Patient

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Control and Monitoring System for Edaphoclimatic Variables in Rice Cultivation: Case Study

Communications in Computer and Information Science - Technologies and Innovation ◽

10.1007/978-3-030-34989-9_4 ◽

2019 ◽

pp. 41-52

Author(s):

Carlota Delgado-Vera ◽

Evelyn Solis-Aviles ◽

Andrea Sinche-Guzman ◽

Yoansy Garcia-Ortega

Keyword(s):

Monitoring System ◽

Rice Cultivation ◽

Control And Monitoring System

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The importance of satellite-based vessel monitoring system (VMS) for fisheries management: A case study in the Portuguese trawl fleet

Maritime Engineering and Technology ◽

10.1201/b12726-7 ◽

2012 ◽

pp. 33-38 ◽

Cited By ~ 1

Keyword(s):

Monitoring System ◽

Fisheries Management

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Performance Evaluation for Related Techniques of the Proposed Environment Pollution Monitoring System for an Iraqi Case Study

Journal of Techniques ◽

10.51173/jt.v3i2.304 ◽

2021 ◽

Vol 3 (2) ◽

pp. 11-18

Author(s):

Taha E. Al-jarakh ◽

Osama Abbas Hussein ◽

Alaa Khamees Al-azzawi ◽

Mahmood Farhan Mosleh

Keyword(s):

Performance Evaluation ◽

Monitoring System ◽

Pollution Monitoring ◽

System Level ◽

Environment Pollution ◽

Huge Number ◽

Iot Platform ◽

Main Challenge ◽

Level Performance

The main challenge of this research is to scale the IoT platform aspects related to exchanging, processing, and archiving messages at the lowest cost compute-wise, through evaluating and selecting the most appropriate techniques that can be used in the design of the environment pollution monitoring system for a case study of Iraq. The entirety of the optimization process aims to provide a nation-wide community-oriented service via the scalable platform. The platform provides an intake for a huge number of sensing nodes. Compute-operations following the form of data analysis, aggregation, sensors’ monitoring for the five air pollutants (SO2, CO, O3, NO2, and PM), in addition to radioactive contamination. Thus system-level performance evaluation takes place on the major compute-intensive operations. Thus, proposals are made to optimize the performance in terms of reducing the scripts execution time and the size of data and messages transmitted and stored in the system.

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