Networks are being deployed extensively in large corporations, small offices, and homes. However, a significant number of “pain points” remain for end-users and network administrators. To resolve complaints quickly and efficiently, network administrators need tools that can assist them in detecting, isolating, diagnosing, and correcting faults. Furthermore, such tools should also detect network security breaches, possibly caused by innocent employees. The NetHealth project is about detecting, inferring, diagnosing, and recovering from user perceived performance problems in enterprise networks.
Existing products do a reasonable job of presenting statistical data from the network. However, they do not do a comprehensive job of gathering and analyzing the data to establish the root cause of the problem. Furthermore, on the wireless side, most products gather data from the Access Points (APs) only and neglect the client-side view of the network. Some products that monitor the network from the client’s perspective require hardware sensors, which can be expensive to deploy and maintain. Also, current solutions do not provide any support for disconnected clients even though these are the ones that need the most help. On the wired side, a number of researchers have come up with solutions for diagnosing problems over WANs; however, most of those approaches are not integrated to perform end-to-end inference and diagnostics.
Under the NetHealth umbrella, we are building algorithms and tools that
- allow generalist operators to diagnose end-to-end performance as “seen” by users
- produce near real-time and historical-analysis reports of end-to-end performance problems with networked services and components
- prioritize and raise alerts based on impact analysis on users from performance glitches/problems
- automatically resolve the problem or offer meaningful resolution strategies
- provide detailed analysis of wireless failures for mobile devices
- provide snapshots of the “health” of network elements and services
- compliment existing detailed networked diagnosis technologies
In contrast to traditional network-based and bolt-on approaches, NetHealth leverages clients and servers. NetHealth agents on the end systems are positioned to harvest available application data, and infer application-level dependencies, rather than reverse this information out from the network or from summarized logs and alerts from computing and network elements, and associated management systems. As a result, the NetHealth approach is well-suited for effective problem location and resolution, and for bringing together the intelligence needed to support meaningful resilience and self-healing, self-* capabilities.
- Sherlock – Enterprise network management via analysis of network dependencies
- Orion – Dependency extraction in enterprise networks
- DAIR – Enterprise wireless LAN management via Dense Array of Inexpensive Radios
- ELDA (SureMail) – Notification system when email losses are detected
- NetProfiler – Cooperative Network Monitoring & Diagnosis
All talks, videos and presentation decks are available on event’s web site.
- Self Managing Networks Summit 2005 — A 2-day mindswap event between researchers from industry, academia, and government to discuss Self-aware networking. June 1-2, 2005
- EdgeNet 2006: Life at the Edge: Research and Practice in Corporate/Campus Networks — This summit brought together experts in academia and industry to discuss the problems facing the designers and managers of enterprise networks. June 1-2, 2006
- Larry Greenemeier, InformationWeek, Inside Microsoft’s Labs, December 04 , 2006
- Gary Anthes, Computerworld, The Future of E-mail, June 12, 2006
- Gary Anthes, Computerworld, Projects in the Microsoft Research labs, June 5, 2006
- Joris Evers, The Industry Standard, Microsoft Researchers target worms, March 4, 2005
Distinguished Engineer, Networking Development
Technical Fellow & Chief Technology Officer, Azure for Operators
Partner Group Software Engineering Manager
Managing Director, Research for Industry Partner Manager, Networking Research CTO, Agri-Food
Senior Principal Researcher