[صفحه اصلی ]     [ English ]  
بخش‌های اصلی
درباره دانشکده::
مدیریت دانشکده::
اعضای هیات علمی ::
معرفی افراد::
امور آموزش::
امور پژوهشی::
آموزش الکترونیکی::
پردیس شماره 2::
اخبار و رویدادها::
فضاهای آموزشی و تحقیقاتی ::
تسهیلات پایگاه::
::
ورود به سایت دروس

AWT IMAGE

نام کاربری
کلمه عبور

AWT IMAGE
رمز ورود را فراموش کرده‌اید؟

..
دفاعیه کارشناسی ارشد

دفاعیه کارشناسی ارشد

..
جستجو در پایگاه

جستجوی پیشرفته
..
دریافت اطلاعات پایگاه
نشانی پست الکترونیک خود را برای دریافت اطلاعات و اخبار پایگاه، در کادر زیر وارد کنید.
..
:: آزمایشگاه های تحقیقاتی گروهی : آزمایشگاه تحقیقاتی سامانه های نهفته و شبکه ::

آزمایشگاه سامانه ­های نهفته و شبکه


اعضای هیئت علمی

دکتر احمد پاطوقی

Dr. Ahmad Patooghy

دکتر مهدی فاضلی

Dr. Mehdi Fazeli

دکتر سید وحید ازهری

Dr. Seyed Vahid Azhari

دانشجویان دکتری

محمد طاهری‌فرد

وحید جمشیدی

مسعود کتیرایی

سید محمد سبط

احسان اعرابی

سمیه کاشی

هادی برقی

مجتبی جهانبخش

صالح فخرعلی

دانشجویان کارشناسی ارشد 

حامد قدیمی

 مهدی صفری

حمیدرضا رضایی

 احمد کوهجانی

 وحدت پناه

محمدامین نوریان

فاطمه آرزومند

کوثر ملکی نسب

داوود رخبخش بنده

ابراهیم حسن

سوگل غیثی

دانشجویان فارق التحصیل

عنوان پایان‌نامه

  فراغت از تحصیل

نام

  Resistance improvement of Advanced Encryption Statndard (AES) algorithm against differential power attacks

  ارشد، مهر 94

 علی میرزاییان

Using MTJ for Design New Logic circuit and Enhance CMOS Based circuit performance

ارشد، شهریور 94

آرش ذبیح‌الله‌پور

Presenting an efficient method for control flow checking for dependable embedded system

ارشد، شهریور 94

مهدی امینی‌نسب

Security Improvement of AES-based Cryptosystems Against Control Flow Attacks

ارشد، شهریور 94

مهسا دهقان

An Efficient Logic Encryption Technique to Secure Digital Circuit Design

ارشد، فروردین 94

محمد صالح صمیمی

Energy-Efficient Fault-Tolerant Task Scheduling for Real-Time Multiprocessor Systems

ارشد، اسفند 93

وحیدرضا مقدس

A New Countermeasure against DFA Fault Attacks in Cryptosystems

ارشد، شهریور 93

علی زارعی

Reliability Enhancement of On-Chip Memories of Modern Processors Using Non-Volatile Memories

ارشد

بهار عسگری

Signature Extraction for Hardware Monitoring to Secure Processing in Embedded Systems

ارشد

مهدی کیخواه

An Architecture Level Approach for Lifetime Enhancement of PCM Main Memory ارشد مرضیه رنجبر پیرباستی
 Performance evaluation of IMS  in the context of operating system-level virtualization platforms ارشد مهدی قاضی زاده
Scheduling of virtual machines on a multi-core processor ارشد مصطفی دهسنگی
Providing a call admission method based on SIP for a 802.11 access point ارشد محمد داود فروتن
Improving the efficiency of authentication and privacy systems to be used to detect radio traffic management ارشد محمد تاج‌آبادی


Nowadays, embedded systems are playing a significant role in human daily life. These systems have variety of applications ranging from consumer devices such as cell phones to safety-critical applications such as aircraft. However, these systems have serious constraints on power consumption, cost, weight/volume, reliability, and security. Embedded systems should be energy efficient because of three main reasons: 1) they are battery operated and the lifetime of the batteries are limited. On the other hand, the improvement of battery technologies lags that of VLSI circuits; 2) the advent of miniaturized chips has enabled the paradigm of pervasive computing, i.e. computing everywhere. This widespread use of embedded systems has brought serious challenges for providing the energy demand for such huge amount of computations; 3) Aggressive power consumption will result in temperature increase on chip, which in turn cause chip failures. Embedded systems should be size efficient as many of such systems may be employed in a system such as car, airplane, and health monitoring systems. Therefore if the size issues are not considered the overall weight and volume of the system would significantly increase. This results in more cost, more energy consumption, or more fuel consumption in some applications such as automotive.

AWT IMAGE

Until recently, reliability has been a concern for only safety-critical applications, but due to reliance of embedded systems on deep submicron technologies, the reliability has become a serious challenge even in non-safety critical applications. This is because; failures in non-safety critical applications may diminish the acceptability of new devices and erode the reputation of the manufacturers. Three trends have seriously challenged the reliability of today’s embedded systems: 1) the ever-decreasing the technology feature sizes: as technology shrinks to Nano-scale feature sizes, the chips become much more vulnerable to environmental faults such as radiations and electromagnetic interferences; 2) the ever-increasing harshness of the environments: our environment has been affected by different source of noises caused by high tech industries such as high frequency satellite signals; 3) the ever increasing the use of embedded devices: as mentioned, today’s we have encountered the pervasive paradigm. It means that the use rate of embedded systems in our daily life has significantly increased. In other words, our quality of life has been coupled with the existence of such devices. Therefore, the failure of such device will directly affect our quality of life.

AWT IMAGE

دفعات مشاهده: 2542 بار   |   دفعات چاپ: 373 بار   |   دفعات ارسال به دیگران: 0 بار   |   0 نظر
::
School of Computer Engineering
Persian site map - English site map - Created in 0.17 seconds with 929 queries by yektaweb 3300