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Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
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Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
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Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
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Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
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|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
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|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
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|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
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|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 125-132 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
|
Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
|
|
Title |
A double-blockchain architecture for secure storage and transaction on the Internet of Things networks |
|
Author |
Khalid Aldriwish |
| Citation |
Vol. 21 No. 6 pp. 119-126 |
|
Abstract |
The Internet of Things (IoT) applications are quickly spread in many fields. Blockchain methods (BC), defined as a distributed sharing mechanism, offer excellent support for IoT evolution. The BC provides a secure way for communication between IoT devices. However, the IoT environments are threatened by hacker attacks and malicious intrusions. The IoT applications security are faced with three challenges: intrusions and attacks detection, secure communication, and compressed storage information. This paper proposed a system based on double-blockchain to improve the communication transactions' safety and enhance the information compression method for the stored data. Information security is enhanced by using an Ellipse Curve Cryptography (ECC) considered in a double-blockchain case. The data compression is ensured by the Compressed Sensing (CS) method. The conducted experimentation reveals that the proposed method is more accurate in security and storage performance than previous related works. |
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Keywords |
Internet of Things, Blockchain, Information security, Encryption |
|
URL |
