Embedded systems, especially Wireless Sensor Nodes are highly prone to Type Safety and Memory Safety issues. Contiki, a prominent Operating System in the domain is even more affected by the problem since it makes extensive use of Type casts and Pointers. The work is an attempt to nullify the possibility of Safety violations in Contiki. We use a powerful, still efficient tool called Deputy to achieve this. We also try to automate the processCochin University of Science and Technology2009 International Conference on Advances in Recent Technologies in Communication and Computin
With reference to sensor node architectures, we consider the problem of supporting forms of memory p...
This paper is centered around the design of a threadand memory-safe language, primarily for the comp...
Operating systems and low-level applications are usually written in languages like C and assembly, w...
Embedded systems, especially Wireless Sensor Nodes are highly prone to Type Safety and Memory Safety...
ManuscriptReliable sensor network software is difficult to create: applications are concurrent and d...
In this paper we introduce ContikiSec, a secure network layer forwireless sensor networks, designed ...
ManuscriptWe report our experience in implementing type and memory safety in an efficient manner for...
Journal ArticleSensor network applications should be reliable. However, TinyOS, the dominant sensor ...
This electronic version was submitted by the student author. The certified thesis is available in th...
We present SafeDrive, a system for detecting and recovering from type safety violations in software ...
International audienceSafety-critical embedded real-time applications have strong needs for both saf...
International audienceWe present in this paper an extensible system for small secure embedded device...
With reference to sensor node architectures, we consider the problem of supporting forms of memory ...
The architecture of traditional operating systems relies on address-based memory protection. To achi...
This dissertation explores the use of capability security hardware and software in real-time and lat...
With reference to sensor node architectures, we consider the problem of supporting forms of memory p...
This paper is centered around the design of a threadand memory-safe language, primarily for the comp...
Operating systems and low-level applications are usually written in languages like C and assembly, w...
Embedded systems, especially Wireless Sensor Nodes are highly prone to Type Safety and Memory Safety...
ManuscriptReliable sensor network software is difficult to create: applications are concurrent and d...
In this paper we introduce ContikiSec, a secure network layer forwireless sensor networks, designed ...
ManuscriptWe report our experience in implementing type and memory safety in an efficient manner for...
Journal ArticleSensor network applications should be reliable. However, TinyOS, the dominant sensor ...
This electronic version was submitted by the student author. The certified thesis is available in th...
We present SafeDrive, a system for detecting and recovering from type safety violations in software ...
International audienceSafety-critical embedded real-time applications have strong needs for both saf...
International audienceWe present in this paper an extensible system for small secure embedded device...
With reference to sensor node architectures, we consider the problem of supporting forms of memory ...
The architecture of traditional operating systems relies on address-based memory protection. To achi...
This dissertation explores the use of capability security hardware and software in real-time and lat...
With reference to sensor node architectures, we consider the problem of supporting forms of memory p...
This paper is centered around the design of a threadand memory-safe language, primarily for the comp...
Operating systems and low-level applications are usually written in languages like C and assembly, w...