عرض العناصر حسب علامة : قواعد البيانات
رسالة دكتوراه: أثر تطبيق نظام الفحص الضريبي الإلكتروني كأحد آليات التحول الرقمي على تحسين المنظومة الضريبية المصرية في ضوء رؤية مصر 2030
يتمثل الهدف الرئيسي للبحث في دراسة وتحليل أثر التحول الرقمي من خلال تطبيق نظام الفحص الضريبي الإلکتروني على تحسين المنظومة الضريبية، والمتمثل في زيادة الإيرادات الضريبية (الحصيلة الضريبية)، وزيادة الامتثال الضريبي من قبل الممولين، والحد من ممارسات التهرب الضريبي تحقيقاً لرؤية مصر2030.
رسالة ماجستير: نموذج مقترح لتطبيق نظام التكاليف المبني على الأنشطة في مستشفى غزة الأوروبي
هدفت هذه الدراسة إلى تبيان أهمية التكاليف غير المباشرة، ودورها في حساب تكلفة الخدمة العلاجية في ظل تطبيق نظام التكاليف المبني على الأنشطة في مستشفى غزة الأوروبي.
ما هو البلوكتشين
لقد تغير العالم بشكل جذري منذ اختراع أجهزة الكمبيوتر. مع الإنترنت، والعمل من المنزل، والعملة الرقمية، ظهرت العديد من التقنيات أخرى. واحدة من هذه التقنيات هي blockchain. ما هو blockchain وكيف يمكن أن يؤثر على عملك؟
معلومات إضافية
-
المحتوى بالإنجليزية
The world has drastically changed in the time since the invention of computers. With the rise of the internet, working from home, and digital currency, other technologies have come into play. One of those technologies is the blockchain. What is blockchain, and how can it impact your business?
What is the blockchain?
Computer databases are digital storage systems. So, what is blockchain technology? Blockchain technology is a form of computer database designed to decentralize and secure electronic data security. The new database form is unique because its design allows for security without using another trusted third party. And, the way it stores information is different from standard databases.
How does a standard computer database work? Generally, a standard database (aka a centralized database) puts data into a structured format, like a table on a spreadsheet. The database lists related information in tables and rows, and each row is called a record. The record includes data about a person, place, or thing (e.g., customers). Then, a third party typically encrypts that information.
So, how does a blockchain differ from a standard database? And, how does blockchain work? Blockchain stores data in chunks of information (i.e., blocks). Once a block is filled with data, the box locks and links to a new block where it stores more information. And, it stores each added piece of information chronologically.
Think of blockchain like a packing box. You fill the box with items, tape it closed when it’s filled, and then put a new, empty box on top to start filling. But once a box is sealed, you cannot change, alter, or destroy anything in that box.
Centralized vs. decentralized databases
Again, standard databases are centralized. What does that mean? A centralized database means that one desktop, server, or mainframe computer holds all the electronic data in a central location. So, one person or company controls the mainframe that houses the data. Businesses may have their own central server that contains all of the information for the company in one location.
By contrast, a blockchain is decentralized. The data held in the blockchain database is spread out among different networks, creating multiple copies of the information to ensure the accuracy of the information. This is why the information in a blockchain is irreversible and “locked” when the block is filled. Changing information in one copy of the blockchain does not change the information in other copies, so the information remains locked and permanent.
In a decentralized database, no one person or company controls the database. Instead, the database is spread across multiple sources to create a shared database.
Photo of a comparison between a centralized database structure and a blockchain database structure.
How does blockchain protect data?
Blockchain tech does not rely on trusted third parties to protect the data in a database. Instead, the blockchain uses the technology’s decentralized nature to protect the data.
In a standard database, a computer virus can infect the entire server because the information is stored in one area. A computer hacker can unleash a virus, worm, or another type of malware into the computer system to corrupt or delete data. If this happens, the information is lost. Or, you could spend a lot of time trying to recover the data.
All too often, a centralized server is the only copy of the data. In that case, losing the data due to malicious software can lead to disaster.
With a blockchain, the data is spread out over multiple sources. A change in one copy does not change the other copies. And, the algorithm can quickly locate the change to one copy. So, if a hacker tries to use a virus to destroy data in one blockchain, the information is not lost. And if someone alters the information in one block of the chain, then the original data does not change with it, so the algorithm can quickly locate where the change occurred.
The process of creating copies has an added benefit. There is an established timeline and order of events in the blockchain. So, users can identify when the change took place, too.