EDA Applicaties bouwen met Oracle Event Delivery Network Training
| Aanbieder | Twice IT Training |
| Kosten | €1.180,00 |
Overzicht
Binnen een Event Driven Architecture worden bedrijfsprocessen gemonitored en pro-actief op gang gebracht op basis van bepaalde gebeurtenissen (events). Na het leggen van een solide basis met Service Oriented Architecture (soa) kan event driven architecture de organisatie een nog hoger niveau van flexibiliteit bieden. Op basis van binnenkomende events worden dynamisch orchestraties samengesteld waarbij het event volledig wordt afgehandeld op basis van beschikbare services. Vaste processen worden in principe minder groots en complex, maar kunnen dynamisch worden samengesteld uit kleinere subprocessen. Tijdens deze cursus worden de mogelijkheden bekeken van het Oracle Event delivery network (EDN), Business activity monitoring (BAM) en Complex event processing. (CEP) Deze opleiding is bedoeld voor organisaties die de mogelijkheden willen kennen die een EDA kan bieden.
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Benodigde kennis
SOAC - Service Oriented Architecture concepten BPM - BPM, BPMN en BPMS in de Praktijk WEBSER - Web Services: from design to implementation InschrijvenBeschrijving
SOA and EDA Fundamental EDA Characteristics Event-driven Architecture SOA Action Framework Event processing Styles Event delivery network (EDN) WS-Eventing Complex Event Processing (CEP) SOA event Patterns SOA events and the SLA Software Platform for ED-SOA Conclusions SOA and EDA The fusion of SOA and EDA into ED-SOA Combining events and services Business rule processing Transforming messages Solicit-Response Different ways of thinking about problem solving WS-Eventing Potential overlap between SOA and EDA Standardizing event processing rules Fundamental EDA Characteristics Decoupled interactions Publish/Subscribe messaging Many-to-many communications Event-based triggers Asynchronous interactions How does ED-SOA support faster responses? Event-driven Architecture Event processors Using a dashboard Event monitoring Event infrastructure Propagation of events Kicking off a business process SOA Action Framework Triggering actions Subscribing to an event The ESB and event propagation Complex event processing Event consumers Event producers Storing and forwarding events Facilitating system responsiveness Event processing Styles Simple processing Handling real-time flow of work Reducing lag time and cost Stream processing Real time flow of information Enabling in-time decision making Complex processing Inferring event occurrence Event correlation Sophisticated event interpreters Responding to business anomalies Event delivery network (EDN) Standard-based connectivity Transport services Message routing capabilities Message transformation features Event services Mediation capabilities Protocol mediation Content mediation Configuring a simple EDN solution Pervasive integration Reliable integration WS-Eventing Delivery modes Subscription managers Notations and terminology Subscription messages Notifications Faults Security considerations Message security Access control Complex Event Processing (CEP) CQL - Complex Query Language Event Attributes or properties Granularity of events Using timestamps Creation time and arrival time Event processing language (EPL) Event processing agents (EPA) Composite events Derived events Event source and event channel SOA event Patterns Discovering event patterns Commands Queries Event pattern monitoring Monitoring for control of process execution Event cascade When to use event patterns Event sourcing Structuring the event handler logic Reversing events SOA events and the SLA Importance of a Service level agreement Keeping services within the agreement Instances violating the SLA Priority for executing risk assessment steps Building autonomous processes Monitoring and event pattern triggering Dependence between events Software Platform for ED-SOA Software Tools for ED-SOA Event-optimized runtimes Supporting bulk application of rules Dynamic data-driven event definition Agents and streams Guaranteed pause times Sensors and event-processing agents Responders Conclusions Building of processes facilitated by ED-SOA ED-SOA constructed using BPM CEP principles as component of ED-SOA The increasing quest for control of BP Real time autonomous operation Gathering business intelligence from events