The Fourth Wave of Digitalization and Public Transport: Opportunities and Challenges

Davidsson, Paul; Hajinasab, Banafsheh; Holmgren, Johan; Jevinger, Åse; Persson, Jan

doi:10.3390/su8121248

Cited by 60 publications

(38 citation statements)

References 36 publications

(33 reference statements)

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“…Still, setting up highly efficient, reliable and accurate systems could remain a great future challenge [7]. Such solutions require adequate business models to regulate revenues distribution to cover involved subjects costs, security mechanism to protect data against unauthorized access and malicious actors, anonymizing algorithms for strong analyses, standards for acquiring interoperability, algorithms and storage solutions for big data operations, interaction models for increasing usability, and efforts to make users involved AI and IoT systems deployment processes [13]. We extracted a set of key requirements to enable more reliable systems: security (regulations, standards and guidelines deployment, end-to-end security mechanisms, intrusion detection systems, post incident management, data encryption, configurable authorization control, users security skills training), data (data fusion, enforced formal data sharing frameworks, cloudcomputing, nonrigid SQL databases, automated collection and analyses) flexibility (open APIs, device and sensors manageability, constant development through networking and device agnosticism) [3,7,22,52].…”

Section: Discussionmentioning

confidence: 99%

“…Results including number of works assigned to the most popular list of topics and the most commonly used engineering controlled terms and keywords compared to full texts analysis, map out sustainable development's areas of AI and IoT deployment: power sector [5,11,19,20], smart city [7,9,11,[21][22][23][24][25][26], architectural design and smart buildings [27][28][29], transportation, tracking systems, traffic congestion and smart roads [7,9,11,13,25], company operations, business development [8,[30][31][32], manufacturing and industrial control [9,10,16,[33][34][35][36], product design and lifecycle [34,37], threat identification systems, earlywarning systems, emergency services, tracking and surveillance [7,9], agriculture [38,39], natural resources management, especially water resources [4,6,7,40], waste management [9][10][11], health...…”

Section: Sustainable Development's Areas For Ai and Iot Deploymentmentioning

confidence: 99%

“…The IoT is an abstraction of limitless objects with unique identities, equipped with some level of Internetaddressable AI and connected to create an ultimate cyber-physical pervasive framework. Connected virtual and physical objects collect data automatically or manually, monitor and transmit data to facilitate a new level of automation [10][11][12][13]. Such network is comprised of hardware (sensors, sensor actuators, embedded communications board, RFID), midware (cloud computing, data storage, data centers), and visualization systems (human-computer interaction interfaces, data interpretation, and event resolving) [6,14,15].…”

Section: Introductionmentioning

confidence: 99%

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Artificial intelligence and internet of things for sustainable development – emerging technological and social opportunities and threats

Jabłońska

Zajdel

2018

SHS Web Conf.

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Artificial Intelligence (AI) and Internet of Things (IoT) are those which will bring a bright future for sustainable development by reducing an unsustainability that disturbs societies, environment, and natural resources. The rapid and multidisciplinary AI and IoT evolution, the relative novelty of the concept itself and little literature concerning their role in sustainable development goals achieving, present an area for further research. Our aim is to research AI and IoT potential and risk for reaching sustainable development, focusing on a job market. We conducted a bibliometric analysis concerning these technologies impact on sustainable development goals achieving, especially technical factors and labor market impact. Results proved that AI and IoT massive deployment brings real threats, still, opportunities and possible benefits that are sought overbalance potential risks.

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Section: Discussionmentioning

confidence: 99%

Section: Sustainable Development's Areas For Ai and Iot Deploymentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Artificial intelligence and internet of things for sustainable development – emerging technological and social opportunities and threats

Jabłońska

Zajdel

2018

SHS Web Conf.

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“…Ofte blir muligheter framfor begrensninger knyttet til IoT trukket fram i litteraturen, blant annet innenfor matvaresikkerhet (Ellis, Muhamadali, Haughey, Elliott & Goodacre, 2015), potensialet i smarte hjem (Devi, Rohini & Suganya, 2016), intelligente helsesystemer, (Feng, 2016) til å utvikle nye forretningsmodeller (Elter, Gooderham, Dasi & Pedersen, 2018), eller knyttet til offentlig transport hvor IoT kan bidra til større miljømessig, økonomisk og sosial baerekraft (Davidsson, Hajinasab, Holmgren, Jevinger & Persson, 2016). Påfallende er det likevel at sikkerhetsutfordringene så vidt nevnes, som i ovennevnte studier.…”

Section: Tidligere Studierunclassified

Leaving the windows open – økt mangel på IKT-sikkerhetskompetanse i Norge

Mark¹,

Tømte²,

Næss³

et al. 2019

NOST

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NIFU -Nordisk institutt for studier av innovasjon, forskning og utdanning cathrine.tomte@nifu.no Terje NaessFagkonsulent NIFU -Nordisk institutt for studier av innovasjon, forskning og utdanning terje.nass@nifu.no Trude RøsdalForsker II NIFU -Nordisk institutt for studier av innovasjon, forskning og utdanning trude.rosdal@nifu.no SAMMENDRAG IKT-sikkerhet berører enkeltindivider, naeringsliv, offentlig sektor, nasjonal infrastruktur og samfunnssikkerhet generelt. IKT-sikkerhet defineres vanligvis som evnen til å forebygge, oppdage og håndtere tre typer hendelser: brudd på konfidensialitet, det vil si at uvedkommende får innsyn i beskyttelsesverdig informasjon, brudd på integritet, det vil si at informasjon og/eller systemer endres, skades eller slettes på uautoriserte eller utilsiktede måter, og brudd på tilgjengelighet, det vil si at informasjon og/eller systemer går tapt eller er utilgjengelige når behovet er der (UNINETT, 2017). De siste årene har vi vaert vitne til mange slike hendelser der IKT-sikkerheten har vaert utfordret, og det er grunn til å tro at omfanget av slike utfordringer øker. I tillegg ser vi at utfordringer knyttet til IKT-sikkerhet This article is downloaded from www.idunn.no. VITENSKAPELIG PUBLIKASJON ved utbredelse av Internet of Things (IoT) øker, og trolig vil kreve styrking av kompetansen innen IKT-sikkerhet.Selv om myndighetene har iverksatt tiltak for å styrke kompetanse-og kunnskapsnivået innen IKT-sikkerhet i Norge, er det grunn til å spørre om det gjøres nok: er innsatsen ambisiøs nok, og er mengden ressurser til å styrke kompetanse-og kunnskapsnivået tilstrekkelig? Utdanner vi kandidater med adekvat kompetanse?Formålet med studien er å frambringe oppdatert kunnskap om tilgangen på IKT-sikkerhetskompetanse, høyere utdanning/spesialistkompetanse, sett i forhold til arbeidslivets framtidige behov. Studien bygger på en kvantitativ framskrivning og kvalitative intervjuer med ulike aktører knyttet til feltet IKT-sikkerhet.Et hovedfunn er at det i årene framover vil utdannes for få med adekvat kompetanse innen IKT-sikkerhet, og at vi får et økende gap mellom tilgang på og behov for personer med IKT-sikkerhetskompetanse, med en underdekning på 4100 personer med IKT-sikkerhetskompetanse (i 2030). Bekymringen for mangelfull adekvat IKT-sikkerhetskompetanse nå og i framtiden blir også bekreftet gjennom intervjuene.Nøkkelord IKT-sikkerhet, kompetansebehov, digitalisering av samfunnet, Tingenes internett ABSTRACT Cybersecurity affects society at all levels. It affects individuals, businesses, the public sector, infrastructure and national security. The purpose of this paper is to assess whether Norway now and, in the future, has enough persons with an adequate level of cyber security skills. To illustrate the future increasing demand for cyber security skills, this paper investigates existing research on the IoT and cyber security, showing a much stronger focus on future positive possibilities and a lack of focus on cyber security challenges. By deploying dynamic simulation models developed by ...

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“…This creates the pressure for building new roads that irreversibly disturb the natural environment. Various authors deal with the issue of sustainability of the transport in their research works [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Human Capital Management in Transport Enterprises with the Acceptance of Sustainable Development in the Slovak Republic

Kucharčíková

Mičiak

2018

Sustainability

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Transport enterprises produce emissions during their activity, which is how they contribute to the polluting of the environment. The requirement of sustainability should therefore be incorporated into their concept of human capital management as well. The aim of this article is to point out the possibilities of application of various human capital management approaches leading to the requirement of increasing the efficiency, performance, competitiveness and sustainability of a transport enterprise in conditions of the Slovak Republic. Via the survey conducted in Slovak enterprises, we found out that the enterprises do not use human capital management much because they have only little knowledge about this concept of work with human capital. Based on the studying of professional literature, the results from the survey, and own experience, we designed two approaches for better implementation of human capital management leading to the increase of efficiency, performance and sustainability of enterprises operating in the field of public transport. The first one is the increase of human capital value via training, and the second consists of the metrics for the assessment of how effectively the enterprises use human capital. We have verified the application of the metrics in conditions of a concrete particular enterprise.

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The Fourth Wave of Digitalization and Public Transport: Opportunities and Challenges

Cited by 60 publications

References 36 publications

Artificial intelligence and internet of things for sustainable development – emerging technological and social opportunities and threats

Artificial intelligence and internet of things for sustainable development – emerging technological and social opportunities and threats

Leaving the windows open – økt mangel på IKT-sikkerhetskompetanse i Norge

Human Capital Management in Transport Enterprises with the Acceptance of Sustainable Development in the Slovak Republic

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