As the Industrial Internet of Things (IIoT) is one of the emerging trends and paradigm shifts to revolutionize the traditional industries with the fourth wave of evolution or transform it into Industry 4.0. This all is merely possible with the sensor-enabled technologies, e.g., wireless sensor networks (WSNs) in various landscapes, where security provisioning is one of the significant challenges for miniaturized power hungry networks. Due to the increasing demand for the commercial Internet of things (IoT) devices, smart devices are also extensively adopted in industrial applications. If these devices are compromising the date/information, then there will be a considerable loss and critical issues, unlike information compromising level by the commercial IoT devices. So emerging industrial processes and smart IoT based methods in medical industries with state-of-the-art blockchain security techniques have motivated the role of secure industrial IoT. Also, frequent changes in android technology have increased the security of the blockchain-based IIoT system management. It is very vital to develop a novel blockchain-enabled cyber-security framework and algorithm for industrial IoT by adopting random initial and master key generation mechanisms over long-range low-power wireless networks for fast encrypted data processing and transmission. So, this paper has three remarkable contributions. First, a blockchain-driven secure, efficient, reliable, and sustainable algorithm is proposed. It can be said that the proposed solution manages keys randomly by introducing the chain of blocks with less power drain, a small number of cores, will slightly more communication and computation bits. Second, an analytic hierarchy process (AHP) based intelligent decision-making approach for the secure, concurrent, interoperable, sustainable, and reliable blockchain-driven IIoT system. AHP based solution helps the industry experts to select the more relevant and critical parameters such as (reliability in-line with a packet loss ratio), (convergence in mapping with delay), and (interoperability in association with throughput) for improving the yield of the product in the industry. Third, sustainable technology-oriented services are supporting to propose the novel cloud-enabled framework for the IIoT platform for regular monitoring of the products in the industry. Moreover, experimental results reveal that proposed approach is a potential candidate for the blockchain-driven IIoT system in terms of reliability, convergence, and interoperability with a strong foundation to predict the techniques and tools for the regulation of the adaptive system from Industry 4.0 aspect.

由于工业物联网（IIoT）是新兴趋势之一，范式转变通过第四波发展浪潮革新了传统行业，或将其转变为工业4.0。这一切仅通过具有传感器功能的技术（例如各种环境中的无线传感器网络（WSN））才有可能实现，在这些技术中，安全性设置是小型耗电网络面临的重大挑战之一。由于对商业物联网（IoT）设备的需求不断增加，智能设备也被广泛应用于工业应用中。如果这些设备损害了日期/信息，则将造成相当大的损失和关键问题，这与商用物联网设备的信息损害程度不同。因此，具有最新的区块链安全技术的医疗行业中新兴的工业流程和基于智能IoT的方法激发了安全工业IoT的作用。此外，Android技术的频繁变化增加了基于区块链的IIoT系统管理的安全性。通过在远程低功耗无线网络上采用随机的初始和主密钥生成机制来快速加密数据处理和传输，为工业物联网开发一种新颖的，具有区块链功能的网络安全框架和算法至关重要。因此，本文有三项杰出的贡献。首先，提出了一种由区块链驱动的安全，高效，可靠和可持续的算法。可以说，提出的解决方案通过引入功耗更低的块链来随机管理密钥，内核数量少时，通信和计算位会稍微多一些。其次，针对安全，并行，可互操作，可持续和可靠的区块链驱动的IIoT系统的基于层次分析法（AHP）的智能决策方法。基于AHP的解决方案可帮助行业专家选择更相关和关键的参数，例如（与丢包率一致的可靠性），（与时延的映射收敛性）和（与吞吐量相关的互操作性），以提高AFP的产量行业中的产品。第三，以可持续技术为导向的服务正在支持为IIoT平台提出一种新颖的基于云的框架，以定期监视行业中的产品。此外，