دانلود مقاله ارزیابی ماژول شبکه های حسگر بی سیم با استفاده از رویکرد IoT
خلاصه
مقدمه
II. بررسی ادبیات
III. طراحی سیستم پیشنهادی
IV. نتایج و بحث
نتیجه گیری
منابع
Abstract
I. Introduction
II. Literature Review
III. Proposed System Design
IV. Results and Discussion
V. Conclusion
References
چکیده
میکروکامپیوترها و دستگاههای پزشکی با فرستندههای سیگنال که روی یک نمایشگر رادیویی خاص کار میکنند، ستون فقرات شبکههای حسگر بیسیم (WS Ns) را تشکیل میدهند که شرایط محیطی (دما، فشار، نور، سطوح ارتعاش، مکان) را نظارت میکنند. به دلیل طراحی انعطاف پذیر و هزینه های راه اندازی پایین، به طور گسترده در شبکه های حسگر WAN استفاده می شود. شبکه لمسی u200b امکان اتصال حداکثر 65000 دستگاه را فراهم می کند، در حالی که حسگرهای هوشمند در سایر شبکه های بی سیم برای انتقال پورت های داده و اختصاص شبکه های بی سیم استفاده می شوند. از آنجایی که قیمت راهحلهای بیسیم در حال کاهش بوده و قابلیتهای عملکردی آنها در حال افزایش است، به تدریج در حال جایگزینی با سیمهای در سیستمهای جمعآوری دادههای تلهمتری و ارتباطات تشخیص از راه دور هستند. در این تحقیق از یک مدل یادگیری عمیق برای جلوگیری از دستکاری دادهها توسط گرههای حسگر استفاده شد. گره های حسگر شامل پارامترها و تخمین های زیادی هستند. اگر این مقادیر داده های پیش بینی شده تغییر کنند، عملکرد شبکه آسیب می بیند و طول عمر گره کاهش می یابد. هنگامی که گره های حسگر توزیع شدند، امنیت داده ها به یک اولویت تبدیل شد. این روش جدید 98.82 درصد کارآمدتر از روش قبلی است.
Abstract
Microcomputers and medical devices with signal transceivers that operate on a specific radio display constitute the backbone of wireless sensor networks (WS Ns) that monitor environmental conditions (temperature, pressure, light, vibration levels, location). It is widely used in WAN sensor networks because of its flexible design and low setup fees. The u200b touch network allows for the connection of up to 65,000 devices, while the Intelligent sensors on other wireless networks are used to transfer data ports and assign wireless networks. Since the price of wireless solutions has been decreasing, and their functional capabilities have been growing, they are gradually replacing wired ones in telemetry data gathering systems and long- distance detecting communication. A deep learning model was used in this investigation to prevent the sensor nodes from manipulating data. Sensor nodes include a lot of parameters and estimations. If these projected data values are altered, network performance will suffer, and the node's lifetime will be reduced. Data security became a priority when the sensor nodes were distributed. This new method is 98.82% more efficient than the previous one.
Introduction
WSNs are very organized at this point [1]. Ten to fifteen years from now, universal Internet access to WSNs with built-in security is a reasonable expectation. It is noticed when the Internet is converted into a real-world network [2]. The potential uses for this technology are many, spanning fields as diverse as medicine, ecology, transportation, the armed forces, the entertainment industry, homeland security, crisis management, and smart cities [3].
ZigBee is the backbone of many modern wireless networks. Expansions in these areas, along with others such as product development, human security requirements, resource management, and the practical application of product-material values, are all part of the present advances. As the technology behind semiconductors has improved, new theoretical and practical questions about the use of emotional networks in commercial and community settings have emerged [4].- [6].
Conclusion
Mechanically inspired energy gadgets have gained much popularity in recent years. The main reason for this is how many crucial tasks are completed in factories. As a result of its settings, other devices placed on top of it may conduct input and transmission tasks. The suggested solution allows the gadget to use almost little power while protecting sensitive information. In this way, the machinery may function better while using less power. Because they use less electricity, these gadgets can store more electricity. As a result, the surplus heat dissipated. So, there needs to be more information on what exactly such a temperature-lowering gadget would need to function. Therefore, energy efficiency is rather good. Since surplus electricity is not leaking out of the plants, there is zero energy waste. Considering these factors, the new approach is much more efficient. Direct communication between nodes is planned as a future update. When two nodes are close to one another, the sensor node may make use of the other node's short-range communication. Measures of time and safety are taken at breakneck speeds.