Hur hanterar arbetsledare schemaläggning vid flexibel arbetstid utifrån organisationens kompetenskrav? / How does supervisor handle scheduling during flexible working hours based on the organization's competence requirements?

Karlén, Sara

January 2018

Forskning visar att genom flexibel arbetstid kan arbetsledare behålla kompetenser. Flexibel arbetstid kan skapa engagemang och bra arbetsförhållanden i verksamheter utifrån medarbetarens enskilda behov och organisationens krav på bemanning. Resultatet visar att genom teorin om KASAM kan arbetsledare skapa en attraktiv arbetsplats och behålla kompetenser trots det strama ekonomiska kravet från organisationen. Syftet med studien var att studera hur goda villkor för lärande kan skapas i flexibel arbetstid. Studien baseras på nio semistrukturerade intervjuer med arbetsledare inom vård och omsorg från tre städer i Sverige och utgick från en intervjuguide. Redovisningen av resultatet delades först in i två teman utifrån organisationsperspektivet och individperspektivet. Därefter analyserades resultatet utifrån teorin om KASAM i tre delar. Arbetsledare menar att genom kommunikation, motivation och delaktighet kan goda villkor för lärande skapas i flexibel arbetstid. Resultatet visar att det är en komplex uppgift för arbetsledare att behålla kompetenser för att skapa en bra arbetsmiljö.

working environment

competence

flexible schedule

flexibel arbetstid

villkor för lärande

schemaläggning

Pedagogical Work

Pedagogiskt arbete

FLEXIBLE WORK ARRANGEMENTS: TECHNOLOGY ENABLING EMERGING POPULATIONS OF MILLENNIALS AND BABY BOOMERS

WEBSTER, SANDI

January 2018

The official standard of a 40-hour work week has not changed for decades in the United States. A flexible work arrangement (a.k.a. telework, flexible schedule or telecommuting) is an alternative to the traditional 9am to 5pm, 40+hours work week in office. In truth, the working environment has changed as employees are expected to work more than 40 hours per week and must be accessible around the clock on weekends and after the end of the workday. Millennials and Baby Boomers (called the emerging populations) are pushing the agenda on flexible work arrangements and getting more flexible schedules. Technology makes this all possible. Millennials are described as the always-connected-to-the-internet generation (Choney, 2012), while any new technological process requires significant instruction and training, and presents a challenge for older workers (Charness, 2006). This grounded theory research (Glaser and Strauss, 1999) informs and updates academics, practitioners, companies, and employees on how technology is enabling flexible working arrangements (referred to as FWA) for the emerging populations. The paper draws on both unstructured interviews and a survey with key informants across age ranges who are business owners, corporate workers, and employees. It explores the tools that are critical to connecting to the office, the advantages and disadvantages of working outside the office, and gives guidelines for employers and workers to utilize when creating a best-in-class flexible environment. Keywords: flexible work arrangement, flexible schedule, millennials, baby boomers, telecommuting, work-life conflict, technology, best practices, emerging populations / Business Administration/Human Resource Management

Business Administration

Baby Boomers

Flexible Schedule

Flexible Work Arrangement

Millennials

Technology

Work-life Conflict

Flexible-schedule-based TDMA protocols for supporting fault-tolerance, on-demand TDMA slot transfer, and peer-to-peer communication in wireless sensor networks

Louis Lee, Winnie

January 2008

[Truncated abstract] This thesis develops a scheduled protocol (time division multiple access, TDMA) called flexible-schedule-based TDMA Protocol (FlexiTP), to address the problem of providing end-to-end guarantees on data delivery, whilst also respecting severe resource constraints of wireless sensor networks. FlexiTP achieves this balance through a distributed, synchronised, and loose slot structure in which sensor nodes can build, modify, or extend their schedules based on their local information. In FlexiTP, it is not necessary to predetermine the number of slots required for a network. FlexiTP's local repair scheme allows nodes to adjust their schedules dynamically and autonomously to recover from node and communication faults. Hence, it maintains a reliable and selforganising multihop network. Most sensor network protocols designed for data gathering applications implicitly assume a periodic rate of data collection from all nodes in the network to the base station. However, nodes may want to report their data more rapidly or slowly depending on the significance and importance of their data to the end-user. The problem is that traditional TDMA-based protocols are not flexible to changes in traffic patterns because of their rigid slot structure schemes. This thesis aims to solve this problem by developing an ondemand TDMA slot transfer method that leverages the flexible-slot structure algorithm of FlexiTP to transfer time slots from one part of the network to another part. ... While these communication patterns are sufficient for monitoring applications, individual sensor nodes may need to send their data to multiple destination nodes across the network in order to execute a distributed cooperative-function based on their local environment. This peer-to-peer communication pattern makes sensor networks more reactive to triggers from the environment. This thesis attempts to solve the problem of lack of peer-to-peer communication in the design of a TDMA-driven protocol by extending the idea of on-demand TDMA slot transfer method to allow each sensor node in the network to claim extra time slots to communicate with any other nodes (peers) in the network, without going through the base station. Nodes in the network may have different priorities of data because of event-triggering sensor readings or various types of sensor readings (e.g., light, temperature, and humidity) they provide. When nodes with high priority packets increase the frequency of their data collections, the network bandwidth may be dominated by these nodes. It is desirable to allow nodes with low priority packets to aggregate their packets and so enabling these nodes to send their data to the base station under the current available network bandwidth. This thesis proposes an on-demand data aggregation algorithm that enables sensor nodes to perform an in-network-aggregation based on their current sensing requirements and network capacity constraints. In summary, this thesis describes the design, implementation, and evaluation of protocols for wireless sensor networks that focus on achieving energy-efficiency, provisioning performance assurances, and supporting reactivity and adaptability in constantly changing environment.

Sensor networks

Time division multiple access

Wireless communication systems

Wireless LANs

Computer network protocols

Energy-efficient TDMA-based protocol

Wireless sensor networks

Flexible-schedule-based TDMA protocols

On-demand slot reassignment