IEEE | Blockchain for Giving Patients Control Over Their Medical Records | DHS Informatics

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dear all

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welcome to dhs informatics in this

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lesson

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i am going to cover you latest ieee

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project on blockchain

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the title of the project is blockchain

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for giving

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patients control over their medical

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records

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it is a very latest topic it is an ieee

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2020

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topic november month release

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actually what is the difference between

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blockchain and

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cloud we can able to

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encrypt and store the data into cloud

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storage

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that is only safe but nowadays hackers

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are there

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they are very very brilliant they are

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decrypting the data in the cloud and

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change the content

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again encrypt and store it back so that

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we only doesn't know

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whether the content is changed or not

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that is a big headache with the

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cryptograph crypto data in cloud

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computing

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so that in blockchain we can able to

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understand whether our data is

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transferred or not

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and we can able to identify which is the

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original

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that's also possible in blockchain so

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that only blockchain is nowadays it is

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having a more importance

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we are going to see how this blockchain

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going to

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be useful in patient control

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medical records that is we can simply

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call ehr

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ehr means electronic health record our

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phr

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patient health record all our comes

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under same topic only

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thank you this project comes under the

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domain blockchain

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i already told you what is a different

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between cloud computing and blockchain

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here the blockchain is a growing list of

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records

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called blocks that are linked together

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using cryptography

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each block contains a cryptographic ash

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of the previous

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block a timestamp and a transaction data

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for example

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we are uploading here one file which is

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called a transaction data that file will

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be encrypted

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before encryption we'll create that hash

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code the dash code will be stored in the

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header part of the block in the header

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part

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we are having the hash code we call it

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as a row dash timestamp and one more

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thing now

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we'll store now this is a one random

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number and apart from this thing we are

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we are getting the previous block root

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act

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and we are storing in the current

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blocker that is called previous block

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ash code

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so that this will help us to identify

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whether the

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block is tampered or not so that it is

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called blockchain

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the content of the one block will be

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stored in the another block

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in the form of hash code that is called

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fingerprint of the block

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so that the hackers are corrupting in

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one block also

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with the help of the fingerprint in

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other block we can able to verify and

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check whether this block is corrupted or

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not that is a

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big advantage in the blockchain

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the technology used in these projects

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are blockchain

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hybrid cloud hybrid cloud means uh we

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are using the private

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private servers and the public server

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the technology

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used to build this project is a j2e that

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is a java 2 enterprise edition

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where we are using servlet jsp

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coding language you say java and backend

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is mysql

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and we are using tomcat web server

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definitely we have to use the

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cryptography technique any cryptography

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technique we can able to use

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mostly symmetric cryptography aes

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algorithm bas algorithm

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or rc4 algorithm anything hashing

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technique we are using sha 256gb which

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is the

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latest stacking technique that is used

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under user defined blockchain user

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defined blockchain in the sensor

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we are not using ethereum and

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hyperledger we are only creating the

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our own blockchain why we are doing like

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that means since

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it is an academic project most of the

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colleges the lecturers are asking

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where the blocks are stored what

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encryption technique you are using

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what acting technique you are using like

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that they will ask them to show the

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coding

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we are going with an ethereum and

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hyperledger it is not possible

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to show that part so that only we are

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using user defined blockchain it is a

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more beneficial to the students and the

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introduction introduction i told you it

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is a electronic health recorder

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nowadays privacy is very important uh

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suppose i am asking your own patient uh

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where is your uh

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record five years before you did a ct

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scan

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give me that record means he is not

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having because it is in a paper he

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misplaced here and there

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but those are stored in a cloud storage

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or in a centralized server he can able

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to fetch it whenever he need it no

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so that the concept of storing the

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health record

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in in digital form it is called the

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electronic health record come into the

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picture okay

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so that in in this type we are having a

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two types of encryption also allowed

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symmetric and asymmetrical symmetric in

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the sense

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the pattern only storing the record he

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only taking the record back means he can

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use the symmetric encryption that is a

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encryption decryption with the same key

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whereas the patient is storing the

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record in a cloud storage

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and he is giving the access to the other

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people means he will encrypt with one

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key

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and he give the decryption key to the

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other doctor

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insurance agent like that that is called

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asymmetric encryption

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then next to one concept is coming it is

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called access control based uh

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uh a cryptograph system what is in the

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access control basically he can a person

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can able to control

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which record can able to taken by which

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person

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this doctor can able to take these four

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files my

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this insurance agent can able to take

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this uh uh seven files like that he can

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able to control

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the things it is called access control

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based the file system

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that only we are going to show we are

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going to see in this

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project the existing system are

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they are having the encryption

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decryption asymmetric things only

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and they are storing in a cloud only

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there is no concept of blockchain they

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are used

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there is no access control that is the

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existing system so that it is having a

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less security

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patient access permission to ehs are

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limited and the patient not able to

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control most of the projects

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doctors fully controlling for the

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patient no projects

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exist patients are controlling the

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records like that so that only it is a

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new idea

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they come up with the proposed system

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they are calling it as an

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inflammatory file system in planetary

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file system means implanted means

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one kind of world in that world the

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patient can able to store their file in

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a blockchain format

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and they can able to give the access

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control to

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whoever they want that thing can be

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showed clearly in the next

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in this diagram you can see now i will

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tell that there are

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15 steps are there i am going to say one

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by one

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first well i am going to say here the

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regulatory agency that is admin

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admin can able to register the doctor

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and

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he will register the pay center and he

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can able to give the

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registration details to the patient okay

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the hospital is sending the records to

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the patient

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the patient use a patient for is sending

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the records to the patient

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five person can able to upload the

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record into blockchain that is called

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ipfs uh inflammatory file system

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there they will store the things up once

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the files are stored into the blockchain

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doctor six request for for the recorder

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doctor may request the patient i need

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your record like that

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then what will happen the patient will

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give the

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accept request that is the thing okay i

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am allowing you to access

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this record like that so that doctor

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what you can able to do

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after the thing he sends the

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re-encryption key the patient has to

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give the if key

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to decrypt the data to for to give the

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doctor to the server

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the server will send a request to the

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ipfs

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and get the data 10th evil it will get

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the encrypted data

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and decrypt and it will send it to the

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doctor doctor can able to decrypt again

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to read the data clearly this is the

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process going to happen in this system

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it is clearly we have done these things

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in our project

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and the advantage of the proposed system

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providing the accurate uh

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security and uh we are enabling the

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quick access of the passenger car

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we are giving the security as well as it

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is a quick

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uh more secure and user friendly and uh

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electronic information all the things

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are stored in the electronic

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way so that it is safer and more

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reliable

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