|
1
|
- Thomas Kunz
- Systems and Computer Engineering
- Carleton University
|
|
2
|
- The pub/sub service is a logically centralized service
- intermediates the communication between publishers and subscribers in a
distributed setting.
- Basic primitives: sub, unsub, pub
- Various routing topologies and semantics
- The pub/sub communication paradigm provides:
- space, flow, and timing decoupling between producers and consumers of
information
- content-based filtering and communication
- Multi-way delivery
- A frequently used communication paradigm
- Proposed for mobile computing
|
|
3
|
|
|
4
|
- How to cope with mobile subscribers?
- Disconnected operations:
- Buffering & queue management
- Handover protocol
- relocating subscriptions and updating the topology
- How to balance subscriber’s load in the event-service?
- Few studies focused on extending pub/sub
- Goals of research
- Develop a mobility support service for pub/sub systems
- Validate its performance in a testbed
|
|
5
|
- API specification to implement MOM services
- Two communication modes specified:
- Point-to-point (one-to-one)
- Publish/subscribe (event-based service)
- Two subscription schemes adapted:
- Durable scheme
- Non-durable scheme
- Two consumption modes supported:
- Asynchronous mode
- Synchronous mode
- Other features
|
|
6
|
- Wired/wireless networks
- JMS primitives
- Compare primitives with high & low reliability
- Detailed results appears in “Performance of Pub/Sub Systems in
Wired/Wireless Networks”, in Proceedings of 64th IEEE VTC, September
2006
- Key observations
- Non-durable subscriptions outperform durable ones
- Durable subscriptions show comparable throughput results to non-durable
ones in wireless domain
- Reliability cost of durable subscriptions is relatively low in wireless
environment
|
|
7
|
- Reactive approach: state-transfer occurs only after the mobile
subscribers reconnect to the new broker
- Commonly used: JEDI, REBECA, SIENA, CEA, ..
- Durable subscription-based approach: every broker buffers all the
published messages irrespective of its current active subscriptions
- Recently used: JMS implementations (OpenJMS, FiornaMQ, JBossMQ, JavaSMQ),
Ivana et al., ..
- Pro-active Approach: context transfer/caching occurs prior to the actual
movement of the mobile subscriber (our proposal)
- Passive subscriptions are propagated to neighbors of current broker
- Subscriptions get activated once subscriber disconnects, start
buffering messages
- Once subscriber reconnects to a broker, will with high probability find
active subscriptions and locally buffered messages, subscriptions in
old and new neighborhood get updated accordingly
|
|
8
|
- Is an undirected graph with a number of edges that represent the
mobility paths between the vertices
- Provides the abstractions to identify the candidate subset of next
potential brokers
- Forms the basis for pre-loading the subscriber context one hop ahead of
its current broker
- Automatically generated and adaptively changes according to the mobility
graph
- A timestamp based LRU method can be used to ensure the freshness of NG
and remove the outlier edges
- Is stored in a distributed manner
|
|
9
|
|
|
10
|
|
|
11
|
- Mobility extension overhead
- In terms of message processing time and message throughput
|
|
12
|
- Cumulative Distribution of Handoff Time
|
|
13
|
- Message Loss, Duplication, Throughput
- As a function of the publication rate
|
|
14
|
- Proactive approach to support mobile subscribers
- Evaluated through small testbed
- Superior performance to reactive approach:
- Higher throughput
- Lower message latency
- Lower handoff latency
- No message duplication
- Low message loss rate
- Future Work:
- Larger testbed (some initial results)
- Impact of mobility patterns/neighborhood graph approximation
- Compare to durable approach (some initial results)
- Analytical performance bounds/prediction models
|
Notes