Simulating quantum systems using real Hilbert spaces

We develop a means of simulating the evolution and measurement of a multipartite quantum state under discrete or continuous evolution using another quantum system with states and operators lying in a real Hilbert space. This extends previous results which were unable to simulate local evolution and measurements with local operators and was limited to discrete evolution. We also detail applications to Bell inequalities and self-testing of quantum apparatus.Comment: 4 page

Engineering Solutions 4.0 in the fight against the spread of Covid 19 A new Methodology including processes, procedures and devices

Thanks to the principles and technologies made available by Industry 4.0, the authors conceptualized and modeled a new strategy, capable of making an effective contribution to the problem of limiting contagion from Covid19 today, and tomorrow from any possible other type virus, bacteria or pathogen agent introduced by subjects who, although unaware of being vectors, develop the infection only after their access to the places of stay (Hotel, office, Infrastructure, etc.) where they go to reside. The key point of the strategy is a 4.0 thermoscanner, created by the authors, which is positioned in appropriately chosen locations of the settlement and an innovative method of disinfection of the same implemented by means of UV-C rays and Ozone in the gaseous state, produced by a machine, also conceptualized and developed by the authors, capable of reproducing the Chapman Cycle with the associated advantages. Therefore, it is operated an absolute disinfection based on a reversible cycle Oxygen-Ozone-Oxygen, with a prompt re-habitability of the treated rooms, with minimal treatment costs and without the use of expensive and unhealthy chemicals or wet water vapor (incompatible with paper and electronics). This technology was described in the paper “Sanitizing of Confined Spaces Using Gaseous Ozone Produced by 4.0 Machines” presented by the authors to the WCE 2021 IAENG Congress and awarded with the “Best Paper Award of the 2021 International Conference of Systems Biology and Bioengineering”. In the presence of a Person with a fever, the thermoscanner automatically launches an alert to the site Safety officers, who confine him to an isolated place and make the Health Institutions intervene and take it over

Through Engineering 4.0 the Safe Operating Block for Patients and Medical Staff

The Paper deals with the management of the operating block in its many activities. By a new approach and with innovative machinery specific several problems were thus studied and overcome, such as the control of hospital infections, the operations of washing and sterilization of surgical instruments, the planning of interventions, the tracking of drugs and medical devices entering the operating block, the management of stocks, the bed management, the monitoring of environmental parameters for patient comfort and safety, the monitoring of machines and the interlocking of doors, etc. Furthermore, it is proposed a wide use of the analytical tools to support decision making, extended to the most modern Cyber-Physical Systems and Digital Twin, alongside Machine Learning and Artificial Intelligence algorithms. Concluding with the new services that can be offered following the digital transformation 4.0 process of the operating block. Using the tools made available by the most advanced Engineering, an operating block was redesigned, safer for patients and medical staff and more efficient from a conduction point of view. This is done using an administration model that was first conceptualized, designed and then implemented adopting what is made available by Industry 4.0, as well as a series of Management Engineering methodologies aimed at an optimized government of complex systems. Through the data collected by appropriate sensors and translated by the software into usable information, there is an optimal use of the available resources, furthermore, the activities for which improvements can be made with the benefit of patients and structures are identified

An Application of Engineering 4.0 to Hospitalized Patients

In this paper the authors address the problem of surveillance of bedridden patients in hospitals and residences for elderly. Unfortunately, patients cannot be supervised by operators 24 h a day, given the associated costs. An attempt to solve this problem is already provided by wearable devices. This paper describes a 4.0 system implemented to overcome the limits (identified by interviewing a sample of nurses belonging to different facilities) of the wearable devices available on the market. The system proposed consists in monitoring the bed, instead of the patient, through applied sensors. By centralizing and analyzing the data collected it is possible to promptly inform the operative center of the occurrence of risky events to which bedridden patients are normally subjected. The scope of the system is preventing such risks, where possible, or mitigating their effects with a real time intervention. A case study on an active facility, conducted as a pilot project, confirms the humanitarian and economic benefits for patients and facility

Smart Inventory 4.0: Advanced version

The Authors of this paper had first conceptualized and then developed the automated picking plant described in the paper “A 4.0 Automated Warehouse Storage and Picking System for Order Fulfillment”, presented by the Authors to the WCE 2021 IAENG Congress and awarded with the “Best Paper Award of the 2021 International Conference of Manufacturing Engineering and Engineering Management”. In the perspective of the continuous improvement of Industry 4.0 they have brought to this first system the significant functional improvements object of this paper. In particular, having found that the loading of the goods in the individual boxes was carried out by the Operators in this factory by using ladders on which they climbed, without the necessary PPE and carrying the load manually, with the consequent risk of falling from such heights (3-6m) to cause even serious physical damage, the Authors first studied and then implemented an automatic loading system. A second problem was then highlighted for the storage of special products such as Food and Pharma, that, unlike what happens in the Beauty Sector (for which the plant was designed), need to remain in specific conditions of temperature and relative humidity. The paper describes how, in this new version, the two parameters are monitored in each single box by means of appropriate sensors that send alerts to the centralized control system when these parameters are outside the preset threshold. In this way, prompt remedial intervention is possible, avoiding the deterioration of the contents of the boxes and the consequent economic damage deriving from their alienation. All this is made possible at acceptable costs thanks to the technologies offered by Industry 4.0 such as modern robotics and Data Centralization via IIoT for monitoring and control

Self-Concept, Gender, And Product Type: An Investigation Of Brand Loyalty

Numerous studies have investigated the impact of self-concept brand image congruity on brand loyalty. However, there is a dearth of literature which has assessed this relationship across different product types. Furthermore, there is a lack of understanding regarding the role that gender may play in the creation of such brand loyalty. This study investigates the effects of self-concept brand image congruity on consumer attitude formation and resulting brand loyalty across two different types of products (i.e., hedonic and utilitarian products) and assesses the moderating role of gender within each product type setting. Results reveal that the proposed model is sufficiently robust to explain the effects of self-concept brand image congruities across different product types. Furthermore, this study indicates that gender serves as a moderator in both product type settings, however, in theoretically important different manners

The Differential Roles Of Product Brand Image And Store Brand Image In Retail Loyalty: A Self-Concept Image Congruity Perspective

The effects of self-concept congruity constructs on retail loyalty have received various attentions in the marketing literature. However, to date, few studies have simultaneously investigated the differential roles of product brand image congruity and store brand image congruity in the creation of retail loyalty between different retail store types. To address this gap, two empirical models are proposed and tested to assess the differential effects of these congruity constructs under the context of two different types of retail stores (i.e., The Gap, Macy’s). Results show that, for retailers who predominately carry merely their own store-brand named products (i.e., The Gap), product brand image congruity plays a central role in the creation of retail loyalty. However, for retailers that offer a wide array of manufacturer named products (i.e., Macy’s), findings indicate that both congruity constructs, particularly store brand image congruity, serve significant roles in the creation of retail loyalty. Theoretical and managerial implications are discussed

Interface bonding of a ferromagnetic/semiconductor junction : a photoemission study of Fe/ZnSe(001)

We have probed the interface of a ferromagnetic/semiconductor (FM/SC) heterojunction by a combined high resolution photoemission spectroscopy and x-ray photoelectron diffraction study. Fe/ZnSe(001) is considered as an example of a very low reactivity interface system and it expected to constitute large Tunnel Magnetoresistance devices. We focus on the interface atomic environment, on the microscopic processes of the interface formation and on the iron valence-band. We show that the Fe contact with ZnSe induces a chemical conversion of the ZnSe outermost atomic layers. The main driving force that induces this rearrangement is the requirement for a stable Fe-Se bonding at the interface and a Se monolayer that floats at the Fe growth front. The released Zn atoms are incorporated in substitution in the Fe lattice position. This formation process is independent of the ZnSe surface termination (Zn or Se). The Fe valence-band evolution indicates that the d-states at the Fermi level show up even at submonolayer Fe coverage but that the Fe bulk character is only recovered above 10 monolayers. Indeed, the Fe 1-band states, theoretically predicted to dominate the tunneling conductance of Fe/ZnSe/Fe junctions, are strongly modified at the FM/SC interface.Comment: 23 pages, 5 figures, submitted to Physical review

New application of open source data and Rock Engineering System for debris flow susceptibility analysis

This research describes a quantitative, rapid, and low-cost methodology for debris flow susceptibility evaluation at the basin scale using open-access data and geodatabases. The proposed approach can aid decision makers in land management and territorial planning, by first screening for areas with a higher debris flow susceptibility. Five environmental predisposing factors, namely, bedrock lithology, fracture network, quaternary deposits, slope inclination, and hydrographic network, were selected as independent parameters and their mutual interactions were described and quantified using the Rock Engineering System (RES) methodology. For each parameter, specific indexes were proposed, aiming to provide a final synthetic and representative index of debris flow susceptibility at the basin scale. The methodology was tested in four basins located in the Upper Susa Valley (NW Italian Alps) where debris flow events are the predominant natural hazard. The proposed matrix can represent a useful standardized tool, universally applicable, since it is independent of type and characteristic of the basin