The New Safety Trends: The Challenges through Industry 4.0

Industrial engineering achieved rapid growth in providing safety measurements in all industries, following different safety policies to prevent faults in sectors. Industrial safety is an essential feature to give an accident-free environment. The safety policies and measurements encourage the industrial people to work in different perilous conditions. Industries prepare their safety policy and safety manual to identify various faults and risks. It is necessary to create awareness in industrial working members, and industries maintain special departments for safety. The safety guidelines prevent occupational injuries and accidents. The safety rules and regulations reduce the waste of human and other resources in industries. The study evaluates safety models used in industry to identify issues involved in the selection, implementation, and evaluation. This research provides insight into the overall process for industrial safety and, most essential, overviews on the methodology. Predicting industrial faults and risks emphasized the industrial engineering process and used machine learning algorithms for classifications. Many issues and challenges discussed industrial safety and provided novel innovation ideas for researchers.

TEACHING OF “CONTROL SYSTEMS OF HAZARDOUS AND HARMFUL FACTORS” WITH “THE LEGAL BASIS FOR CIVIL SECURITY” IN THE INSTITUTION BUILDING AND CIVIL SECURITY PROFILES (FOR SPECIALTY CONSTRUCTION AND CIVIL SECURITY)

Problem statement. The article is aimed at determining the characteristics of the specialty, the presenceof problems in learning. The purpose of the article is to highlight the main problems associated with the production andthe process of mastering the profession. As the specialty is quite young, there are often no materials to master it byfuture specialists. We hope that we have managed to overcome these shortcomings. The training of future specialists intoday's changing conditions of production needs and employers poses new challenges to higher education, includinguniversities that train specialists in the field of civil security. The article is built in the classical style according to therequirements of the Ministry of Education and Science of Ukraine to scientific articles. Purpose. The specialty is one ofthe most relevant and popular specialties of training and is focused primarily on training specialists who are able toensure effective implementation of labor protection policy, industrial safety and cooperation with state supervisoryauthorities in accordance with regulations and international standards. The specialty allows to acquire practical andspecialized knowledge and skills in the field of both technical and human sciences, related to the risks that arise in theprocess of work, methods of eliminating hazards, assessment of occupational risks, etc. Graduates can interpret the roleand place of a person in solving health and safety problems with all the consequences. Conclusions. The purpose of thespecialists in civil safety and labor protection is to implement the task of compulsory state social insurance againstaccidents at work and occupational diseases, including participation in ensuring the employer's preventive and othermeasures aimed at eliminating harmful and dangerous factors of production, prevention of accidents at work,occupational diseases and other cases of threat to the health of personnel caused by working conditions, and providingthe employer with practical assistance in constantly improving the forms and methods of preventive work in the field oflabor protection.

Appropriate Smart Factory : Demonstration of Applicability to Industrial Safety

As industrial safety increases, various industrial accident prevention technologies using smart factory technology are being studied. However, small and medium enterprises (SMEs), which account for the majority of industrial accidents, are having difficulties in preventing industrial accidents by applying these smart factory technologies due to practical problems. In this study, customized monitoring and warning systems for each type of industrial accident were developed and applied to the actual field. Through this, we demonstrated industrial accident prevention technology through appropriate smart factory technology used by SMEs. A customized monitoring system using vision, current, temperature, and gas sensors was established for the four major disaster types: worker body access, short circuit and overcurrent, fire and burns due to high temperature, and emission of hazardous gas. In addition, a notification method suitable for each work environment was applied so that the monitored risk factors could be recognized quickly, and real-time data transmission and display enabled workers and managers to understand the disaster risk effectively. Through the application and demonstration of these appropriate smart factory technologies, the spread of these industrial safety technologies is to be discussed.

Functions of responsible for training in digital systems for industrial safety

The functional capabilities provided by the digital production safety training system for those responsible for training allow the software complex to be maintained in a stable operational state when exposed to emergency situations, to fulfill all the necessary needs of responsible users with the authority to create effective training programs and to test the knowledge of workers on production safety, to quickly form up-to-date digital reporting documentation for the organization.

New in the field of health and safety

The review presents innovations in the field of legislation, information on initiatives in the field of labor protection and industrial safety

Explanations of labor protection specialists

Rostrud specialists provide clarifications on issues related to training in the provision of first aid, assessment of occupational risks, and industrial safety.

Construction Safety Law

<p>The development of industrial safety law in Britain and New Zealand and the origins of construction, safety law are outlined in Part I. The administration and interpretation of the Construction Act 1959 are described in Part II, and Part III highlights the comparable statute law in three Commonwealth countries. The thesis will assist persons engaged in industry, lawyers and departmental officers in the understanding of the law and its application to construction work. The information presented on overseas law will assist those involved in the task of reviewing and consolidating the New Zealand industrial safety, health and welfare legislation. The history of the British Factories Acts leading on to the Health and Safety at Work Act 1974, described in Chapter 1, highlights the importance of a self-regulating, integrated statutory system and a professional inspectorate with an advisory role and residual enforcement powers. New Zealand safety law has developed as the country's industrial needs have determined, as will be seen from Chapter 2. Generally, British statutes have been adopted, but construction safety law is the exception and Chapter 3 shows that, from the earliest Bill introduced by Richard John Seddon in 1892 up to the present, the legislation covering the construction industry has been initiated and drafted with industry representation. The more empirical subjects such as current policy and practice, sanctions, codes, education, other legislation and reform, as well as the purpose, effect, extent and application of the Construction Act 1959 are discussed in Chapter 4. The results of the author's legal research and analysis are contained in Chapters 5 and 6 under the headings of 'Liabilities' and 'Technical Law'. The responsibilities of employers, workmen, safety supervisors, inspectors and the Crown are set out and explained in terms of the statute and the interpretation from the case law. The technical subjects include scaffolding, guardrails, brittle roofing, fall of objects, access, excavations, mechanical plant, demolition, eye protection, asbestos, work in compressed air, health and welfare. Chapters 7, 8 and 9 examine the present legislation, in Britain, Australia and Canada and indicate a trend towards a unified approach to occupational safety, health and welfare and one enactment for all places of work, and with separate regulations and codes of practice for each industry. This study has been carried out by the present Chief Safety Engineer of the Department of Labour who has been responsible for the administration of the Construction Act 1959 since 1968. A separately bound appendix includes a copy of the Construction Act 1959 and the Amendments (Appendix A), the Inspection of Building Appliances Bill 1892 (Appendix B), the Scaffolding Inspection Act 1906 (Appendix C), the Tasmanian Industrial Safety, Health and Welfare Act 1977 (Appendix D), the Ontario Occupational Health and Safety Act 1978 (Appendix E), and copies of the unreported judgments and decisions referred to in the thesis (Appendix F).</p>

Construction Safety Law

<p>The development of industrial safety law in Britain and New Zealand and the origins of construction, safety law are outlined in Part I. The administration and interpretation of the Construction Act 1959 are described in Part II, and Part III highlights the comparable statute law in three Commonwealth countries. The thesis will assist persons engaged in industry, lawyers and departmental officers in the understanding of the law and its application to construction work. The information presented on overseas law will assist those involved in the task of reviewing and consolidating the New Zealand industrial safety, health and welfare legislation. The history of the British Factories Acts leading on to the Health and Safety at Work Act 1974, described in Chapter 1, highlights the importance of a self-regulating, integrated statutory system and a professional inspectorate with an advisory role and residual enforcement powers. New Zealand safety law has developed as the country's industrial needs have determined, as will be seen from Chapter 2. Generally, British statutes have been adopted, but construction safety law is the exception and Chapter 3 shows that, from the earliest Bill introduced by Richard John Seddon in 1892 up to the present, the legislation covering the construction industry has been initiated and drafted with industry representation. The more empirical subjects such as current policy and practice, sanctions, codes, education, other legislation and reform, as well as the purpose, effect, extent and application of the Construction Act 1959 are discussed in Chapter 4. The results of the author's legal research and analysis are contained in Chapters 5 and 6 under the headings of 'Liabilities' and 'Technical Law'. The responsibilities of employers, workmen, safety supervisors, inspectors and the Crown are set out and explained in terms of the statute and the interpretation from the case law. The technical subjects include scaffolding, guardrails, brittle roofing, fall of objects, access, excavations, mechanical plant, demolition, eye protection, asbestos, work in compressed air, health and welfare. Chapters 7, 8 and 9 examine the present legislation, in Britain, Australia and Canada and indicate a trend towards a unified approach to occupational safety, health and welfare and one enactment for all places of work, and with separate regulations and codes of practice for each industry. This study has been carried out by the present Chief Safety Engineer of the Department of Labour who has been responsible for the administration of the Construction Act 1959 since 1968. A separately bound appendix includes a copy of the Construction Act 1959 and the Amendments (Appendix A), the Inspection of Building Appliances Bill 1892 (Appendix B), the Scaffolding Inspection Act 1906 (Appendix C), the Tasmanian Industrial Safety, Health and Welfare Act 1977 (Appendix D), the Ontario Occupational Health and Safety Act 1978 (Appendix E), and copies of the unreported judgments and decisions referred to in the thesis (Appendix F).</p>