Your search keyword '"Arı, İsmail"' showing total 11 results

1. Multivariate Sensor Data Analysis for Oil Refineries and Multi-mode Identification of System Behavior in Real-time

Author

Athar Khodabakhsh, Ismail Ari, Ali Ozer Ercan, Mustafa Bakir, Özyeğin University, Arı, İsmail, Ercan, Ali Özer, and Khodabakhsh, Athar

Subjects

General Computer Science, Computer science, 020209 energy, System behavior, Complex event processing, Data validation, 02 engineering and technology, Oil refinery, computer.software_genre, Predictive maintenance, Data modeling, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, stream data, oil refinery, Stream data, Data stream mining, General Engineering, Systems modeling, sensor data, Gross error detection, Data validation and reconciliation, Sensor data, Gross error classification, Data mining, lcsh:Electrical engineering. Electronics. Nuclear engineering, gross error classification, computer, lcsh:TK1-9971, gross error detection

Abstract

Large-scale oil refineries are equipped with mission-critical heavy machinery (boilers, engines, turbines, and so on) and are continuously monitored by thousands of sensors for process efficiency, environmental safety, and predictive maintenance purposes. However, sensors themselves are also prone to errors and failure. The quality of data received from these sensors should be verified before being used in system modeling. There is a need for reliable methods and systems that can provide data validation and reconciliation in real-time with high accuracy. In this paper, we develop a novel method for real-time data validation, gross error detection and classification over multivariate sensor data streams. The validated and high-quality data obtained from these processes is used for pattern analysis and modeling of industrial plants. We obtain sensor data from the power and petrochemical plants of an oil refinery and analyze them using various time-series modeling and data mining techniques that we integrate into a complex event processing engine. Next, we study the computational performance implications of the proposed methods and uncover regimes where they are sustainable over fast streams of sensor data. Finally, we detect shifts among steady-states of data, which represent systems' multiple operating modes and identify the time when a model reconstruction is required using DBSCAN clustering algorithm. Turkish Petroleum Refineries Inc. (TUPRAS) RD Center Publisher version

Published

2018

2. Hybrid Job Scheduling for Improved Cluster Utilization

Author

Ismail Ari, Ugur Kocak, Özyeğin University, Arı, İsmail, and Kocak, Uğur

Subjects

Job scheduler, Operations research, Computer science, Distributed computing, Message Passing Interface, Cluster (physics), High-throughput computing, Cluster analysis, computer.software_genre, Supercomputer, computer, Scheduling (computing)

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. In this paper, we investigate the models and issues as well as performance benefits of hybrid job scheduling over shared physical clusters. Clustering technologies that are currently supported include MPI, Hadoop-MapReduce and NoSQL systems. Our proposed scheduling model is above the cluster-specific middleware and OS-level schedulers and it is complementary to them. First, we demonstrate that we can effectively schedule MPI, Hadoop, NoSQL jobs together by profiling them and then co-scheduling. Second, we find that it is better to schedule cluster jobs with different job characteristics together (CPU vs. I/O intensive) rather than two CPU-intensive jobs. Third, we use the learning outcome of this principle to design of a greedy sort-merge scheduler. Up to 37% savings in total job completion times are demonstrated. These savings are directly proportional to the cluster utilization improvements.

Published

2014

3. Online Association Rule Mining over Fast Data

Author

Ismail Ari, Erdi Olmezogullari, Özyeğin University, Arı, İsmail, and Ölmezoğulları, Erdi

Subjects

Information management, Association rule learning, business.industry, Computer science, Data stream mining, Big data, Social networking (online), Information technology, Complex event processing, 02 engineering and technology, computer.software_genre, 020202 computer hardware & architecture, 0202 electrical engineering, electronic engineering, information engineering, Data analysis, 020201 artificial intelligence & image processing, Algorithm design, Data mining, business, computer, Music

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. To extract useful and actionable information in real-time, the information technology (IT) world is coping with big data problems today. In this paper, we present implementation details and performance results of ReCEPtor, our system for "online" Association Rule Mining (ARM) over big and fast data streams. Specifically, we added Apriori and two different FP-Growth algorithms inside Esper Complex Event Processing (CEP) engine and compared their performances using LastFM social music site data. Our most important findings show that online ARM can generate (1) more unique rules, (2) with higher throughput, and (3) much sooner (lower latency) than offline rule mining. In addition, we have found many interesting and realistic musical preference rules such as "George HarrisonàBeatles". We demonstrate a sustained rate of ~15K rows/sec per core. We hope that our findings can shed light on the design and implementation of other fast data analytics systems in the future. European Union ; TÜBİTAK ; IBM Shared University Research program ; Turkish Telecomm ; Avea Labs

Published

2013

4. Realtime healthcare services via nested complex event processing technology

Author

Elke A. Rundensteiner, Dazhi Zhang, Ismail Ari, Chetan Gupta, Medhabi Ray, Song Wang, Daniel J. Dougherty, Mo Liu, Özyeğin University, and Arı, İsmail

Subjects

Sequence, CEP, Supply chain management, Process (engineering), Computer science, Event (computing), Open problem, Execution strategy, Volume (computing), Complex event processing, Ranging, computer.software_genre, Nested sequence, Data mining, computer, Monitoring application

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Complex Event Processing (CEP) over event streams has become increasingly important for real-time applications ranging from healthcare to supply chain management. In such applications, arbitrarily complex sequence patterns as well as non existence of such complex situations must be detected in real time. To assure real-time responsiveness for detection of such complex pattern over high volume high-speed streams, efficient processing techniques must be designed. Unfortunately the efficient processing of complex sequence queries with negations remains a largely open problem to date. To tackle this shortcoming, we designed optimized strategies for handling nested CEP query. In this demonstration, we propose to showcase these techniques for processing and optimizing nested pattern queries on streams. In particular our demonstration showcases a platform for specifying complex nested queries, and selecting one of the alternative optimized techniques including sub-expression sharing and intermediate result caching to process them. We demonstrate the efficiency of our optimized strategies by graphically comparing the execution time of the optimized solution against that of the default processing strategy of nested CEP queries. We also demonstrate the usage of the proposed technology in several healthcare services. HP Labs Innovation Program ; NSF

Published

2012

5. Data stream analytics and mining in the cloud

Author

Omer Faruk Celebi, Erdi Olmezogullari, Ismail Ari, Özyeğin University, Arı, İsmail, and Ölmezoğulları, Erdi

Subjects

Data stream, Association rule learning, computer.internet_protocol, Computer science, Big data, Complex event processing, Cloud computing, 02 engineering and technology, computer.software_genre, 0202 electrical engineering, electronic engineering, information engineering, Enterprise resource planning, Association rule mining, 020203 distributed computing, Database, business.industry, Data stream mining, 020206 networking & telecommunications, Service-oriented architecture, Apriori, Data science, Enterprise data management, Correlation, Analytics, Event stream processing, business, computer, Stream mining, Data streams, FP-growth

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Due to prevalent use of sensors and network monitoring tools, big volumes of data or “big data” today traverse the enterprise data processing pipelines in a streaming fashion. While some companies prefer to deploy their data processing infrastructures and services as private clouds, others completely outsource these services to public clouds. In either case, attempting to store the data first for subsequent analysis creates additional resource costs and unwanted delays in obtaining actionable information. As a result, enterprises increasingly employ data or event stream processing systems and further want to extend them with complex online analytic and mining capabilities. In this paper, we present implementation details for doing both correlation analysis and association rule mining (ARM) over streams. Specifically, we implement Pearson-Product Moment Correlation for analytics and Apriori & FPGrowth algorithms for stream mining inside a popular event stream processing engine called Esper. As a unique contribution, we conduct experiments and present performance results of these new tools with different tumbling and sliding time-windows over two different stream types: one for moving bus trajectories and another for web logs from a music site. We find that while tumbling windows may be more preferable for performance in certain applications, sliding windows can provide additional benefits with rule mining. We hope that our findings can shed light on the design of other cloud analytics systems. Avea Labs ; TÜBİTAK ; European Commission ; IBM Shared University Research Program

Published

2012

6. E-Cube

Author

Chetan Gupta, Mo Liu, Kara Greenfield, Song Wang, Ismail Ari, Abhay Mehta, Elke A. Rundensteiner, Özyeğin University, and Arı, İsmail

Subjects

Optimization, Data stream, OLAP, Chase, Data stream mining, Computer science, Event (computing), Online analytical processing, InformationSystems_DATABASEMANAGEMENT, Complex event processing, Reuse, Streaming, computer.software_genre, Algorithm, Event stream processing, Data mining, computer, Abstraction (linguistics)

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Many modern applications, including online financial feeds, tag-based mass transit systems and RFID-based supply chain management systems transmit real-time data streams. There is a need for event stream processing technology to analyze this vast amount of sequential data to enable online operational decision making. Existing techniques such as traditional online analytical processing (OLAP) systems are not designed for real-time pattern-based operations, while state-of-the-art Complex Event Processing (CEP) systems designed for sequence detection do not support OLAP operations. We propose a novel E-Cube model which combines CEP and OLAP techniques for efficient multi-dimensional event pattern analysis at different abstraction levels. Our analysis of the interrelationships in both concept abstraction and pattern refinement among queries facilitates the composition of these queries into an integrated E-Cube hierarchy. Based on this E-Cube hierarchy, strategies of drill-down (refinement from abstract to more specific patterns) and of roll-up (generalization from specific to more abstract patterns) are developed for the efficient workload evaluation. Our proposed execution strategies reuse intermediate results along both the concept and the pattern refinement relationships between queries. Based on this foundation, we design a cost-driven adaptive optimizer called Chase, that exploits the above reuse strategies for optimal E-Cube hierarchy execution. Our experimental studies comparing alternate strategies on a real world financial data stream under different workload conditions demonstrate the superiority of the Chase method. In particular, our Chase execution in many cases performs ten fold faster than the state-of-the art strategy for real stock market query workloads. HP Labs Innovation Research Program ; NSF ; TÜBİTAK

Published

2011

7. Optimizing complex sequence pattern extraction using caching

Author

Elke A. Rundensteiner, Daniel J. Dougherty, Chetan Gupta, Mo Liu, Ismail Ari, Abhay Mehta, Song Wang, Medhabi Ray, Özyeğin University, and Arı, İsmail

Subjects

Cache storage, Sequence, Focus (computing), Query processing, Computer science, Event (computing), Business process, Electronic commerce, Real-time computing, Complex event processing, computer.software_genre, Object (computer science), Cache, Data mining, Supply chain management, computer

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Complex Event Processing (CEP) has become increasingly important for tracking and monitoring complex event anomalies and trends in event streams emitted from business processes such as supply chain management to online stores in e-commerce. These monitoring applications submit complex event queries to track sequences of events that match a given pattern. The state-of-the-art CEP systems mostly focus on the execution of flat sequence queries, we instead support the execution of nested CEP queries specified by our NEsted Event Language NEEL. However, the iterative execution of nested CEP expressions often results in the repeated recomputation of the same or similar results for nested subexpressions as the window slides over the event stream. In this work we thus propose to optimize NEEL execution performance by caching intermediate results. In particular we design two methods of applying selective caching of intermediate results namely Object Caching and the Interval-Driven Semantic Caching. Techniques for incrementally loading, purging and exploiting the cache content are described. Our experimental study using real-world stock trades evaluates the performance of our proposed caching strategies for different query types. HP Labs Innovation Research Program ; NSF ; TÜBİTAK

Published

2011

8. High-performance nested CEP query processing over event streams

Author

Song Wang, Abhay Mehta, Elke A. Rundensteiner, Chetan Gupta, Ismail Ari, Daniel J. Dougherty, Mo Liu, Özyeğin University, and Arı, İsmail

Subjects

Theoretical computer science, Query processing, Computer science, Scalability, Query languages, Complex event processing, Rewriting, Data mining, Cluster analysis, Query language, computer.software_genre, Partition (database), computer

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Complex event processing (CEP) over event streams has become increasingly important for real-time applications ranging from health care, supply chain management to business intelligence. These monitoring applications submit complex queries to track sequences of events that match a given pattern. As these systems mature the need for increasingly complex nested sequence query support arises, while the state-of-art CEP systems mostly support the execution of flat sequence queries only. To assure real-time responsiveness and scalability for pattern detection even on huge volume high-speed streams, efficient processing techniques must be designed. In this paper, we first analyze the prevailing nested pattern query processing strategy and identify several serious shortcomings. Not only are substantial subsequences first constructed just to be subsequently discarded, but also opportunities for shared execution of nested subexpressions are overlooked. As foundation, we introduce NEEL, a CEP query language for expressing nested CEP pattern queries composed of sequence, negation, AND and OR operators. To overcome deficiencies, we design rewriting rules for pushing negation into inner subexpressions. Next, we devise a normalization procedure that employs these rules for flattening a nested complex event expression. To conserve CPU and memory consumption, we propose several strategies for efficient shared processing of groups of normalized NEEL subexpressions. These strategies include prefix caching, suffix clustering and customized “bit-marking” execution strategies. We design an optimizer to partition the set of all CEP subexpressions in a NEEL normal form into groups, each of which can then be mapped to one of our shared execution operators. Lastly, we evaluate our technologies by conducting a performance study to assess the CPU processing time using real-world stock trades data. Our results confirm that our NEEL execution in many cases performs 100 fold fast er than the traditional iterative nested execution strategy for real stock market query workloads. HP Labs Innovation Research Program ; NSF ; TÜBİTAK

Published

2011

9. NEEL: The nested complex event language for real-time event analytics

Author

Daniel J. Dougherty, Abhay Mehta, Mo Liu, Ismail Ari, Song Wang, Chetan Gupta, Elke A. Rundensteiner, Özyeğin University, and Arı, İsmail

Subjects

Sequence, CEP, Theoretical computer science, Syntax (programming languages), Event (computing), Computer science, Semantics (computer science), business.industry, Complex event processing, Context (language use), Query language, computer.software_genre, Semantics, Analytics, Nested query, Data mining, Syntax, business, computer

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Complex event processing (CEP) over event streams has become increasingly important for real-time applications ranging from health care, supply chain management to business intelligence. These monitoring applications submit complex event queries to track sequences of events that match a given pattern. As these systems mature the need for increasingly complex nested sequence query support arises, while the state-of-art CEP systems mostly support the execution of only flat sequence queries. In this paper, we introduce our nested CEP query language NEEL for expressing nested queries composed of sequence, negation, AND and OR operators. Thereafter, we also define its formal semantics. Subtle issues with negation and predicates within the nested sequence context are discussed. An E-Analytics system for processing nested CEP queries expressed in the NEEL language has been developed. Lastly, we demonstrate the utility of this technology by describing a case study of applying this technology to a real-world application in health care. HP Labs Innovation Research Program ; NSF ; TÜBİTAK

Published

2011

10. E-Cube: multi-dimensional event sequence processing using concept and pattern hierarchies

Author

Ismail Ari, Elke A. Rundensteiner, Kara Greenfield, Chetan Gupta, Song Wang, Mo Liu, Abhay Mehta, Özyeğin University, and Arı, İsmail

Subjects

RFID based supply chain management systems, Sequence, Supply chain management, OLAP, Computer science, Event (computing), Online analytical processing, Complex event processing, computer.software_genre, Event stream processing, E-Cube, Pattern matching, Data mining, computer, Abstraction (linguistics)

Abstract

Due to copyright restrictions, the access to the full text of this article is only available via subscription. Many modern applications including tag based mass transit systems, RFID-based supply chain management systems and online financial feeds require special purpose event stream processing technology to analyze vast amounts of sequential multi-dimensional data available in real-time data feeds. Traditional online analytical processing (OLAP) systems are not designed for real-time pattern-based operations, while Complex Event Processing (CEP) systems are designed for sequence detection and do not support OLAP operations. We will demonstrate a novel E-Cube model that combines CEP and OLAP techniques for multi-dimensional event pattern analysis at different abstraction levels. A London transit scenario will be given to demonstrate the utility and performance of this proposed technology. NSF

Published

2010

11. Processing nested complex sequence pattern queries over event streams

Author

Elke A. Rundensteiner, Daniel J. Dougherty, Chetan Gupta, Ismail Ari, Medhabi Ray, Abhay Mehta, Song Wang, Mo Liu, Özyeğin University, and Arı, İsmail

Subjects

Complex event processing, Sequence, Focus (computing), Supply chain management, Complex sequence pattern queries, Computer science, Event (computing), Ranging, Data mining, computer.software_genre, computer, Sequence pattern

Abstract

Complex event processing (CEP) has become increasingly important for tracking and monitoring applications ranging from healthcare, supply chain management to surveillance. These monitoring applications submit complex event queries to track sequences of events that match a given pattern. As these systems mature the needfor increasingly complex nested sequence queries arises, while thestate-of-the-art CEP systems mostly focus on the execution of flat sequence queries only. In this paper, we now introduce an iterative execution strategy for nested CEP queries composed of sequence, negation, AND and OR operators. Lastly the promise of applying selective caching of intermediate results to optimize the execution. Our experimental study using real-world stock trades evaluates the performance of our proposed iterative execution strategy for differentquery types. HP Labs Innovation Research Program ; National Science Foundation ; TÜBİTAK post-print

Published

2010