Deployment Strategies for High Accuracy and Availability Indoor Positioning with 5G

Ahlander, Jesper, Posluk, Maria

January 2020

Indoor positioning is desired in many areas for various reasons, such as positioning products in industrial environments, hospital equipment or firefighters inside a building on fire. One even tougher situation where indoor positioning can be useful is locating a specific object on a shelf in a commercial setting. This thesis aims to investigate and design different network deployment strategies in an indoor environment in order to achieve both high position estimation accuracy and availability. The investigation considers the two positioning techniques downlink time difference of arrival, DL-TDOA, and round trip time, RTT. Simulations of several deployments are performed in two standard scenarios which mimic an indoor open office and an indoor factory, respectively. Factors having an impact on the positioning accuracy and availability are found to be deployment geometry, number of base stations, line-of-sight conditions and interference, with the most important being deployment geometry. Two deployment strategies are designed with the goal of optimising the deployment geometry. In order to achieve both high positioning accuracy and availability in a simple, sparsely cluttered environment, the strategy is to deploy the base stations evenly around the edges of the deployment area. In a more problematic, densely cluttered environment the approach somewhat differs. The proposed strategy is now to identify and strategically place some base stations in the most cluttered areas but still place a majority of the base stations around the edges of the deployment area. A robust positioning algorithm is able to handle interference well and to decrease its impact on the positioning accuracy. The cost, in terms of frequency resources, of using more orthogonal signals may not be worth the small improvement in accuracy and availability.

Indoor positioning

5G

Cramér-Rao Lower Bound

Time Difference Of Arrival

Round Trip Time

Geometric Dilution Of Precision

Availability

Accuracy

Deployment strategies

Line-Of-Sight

Interference

Signal Processing

Signalbehandling

Performance Impact of Migrating a Mining Traffic Management System To Docker

Issa, Mubdir

January 2021

Software deployment is all of the activities that make a software system available for use. An examaple of such activites can be installations, updating and removing of software. Each deployment platform can differ in quality attributes such as performance, maintainability, etc. Docker, a deployment platform using container technology offering a more modular way of deployment has become increasingly popular over the past few years. The aim of the project is to find out how a deployment with Docker would affect the performance of a client­server application from the mining industry. Three scenarios were performed in a simulated environment for the existing as well as the potential deployment platform. Measures of round­trip time were made for both sets of the scenarios. Results show a general decrease in performance when running the application on Docker. This is especially seen in early stages of each scenario, where Docker in average has 15 times higher round­trip times than the existing platform. However, results gathered from each scenario suggests that while Docker does start much slower than the existing platform, in later stages of each scenarios, Docker manages to narrow the gap and be at most 1.14 times higher than the existing platform. In conclusion, while the deployment in which the existing platform is deployed on does out perform Docker, it still shows some promise and could potentially be a worthy option to look at for further work.

Docker

Mines

SAFE

Combitech

Software Deployment

Performance

Performance Evaluation

Latency

Round ­ Trip Time

.NET Framework

Software

Software Maturity

Computer Systems

Datorsystem

Nätverkets och användarens påverkan på latens i en Virtual Desktop-miljö

Nensén, Mattias, Hedlund, Henrik

January 2015

I en värld där kraven på flexibilitet, säkerhet och hårdvaruoptimering är nyckelfaktorer när det kommer till att välja IT-miljöer för företag blir virtuella skrivbord mer och mer poulära. Med dessa miljöer finns det också problem när det kommer till användarupplevelsen om nätverket ifråga inte kan uppfylla de krav som ett sådant system ställer. I detta arbete undersöks implikationerna vissa nätverksvariabler kan ha för en Virtual Desktop-infrastruktur, VDI. För att belysa dessa problem har två tester utförts på en VDI miljö. Det första testet gick ut på att mäta latensen då skrivbordsmiljön renderades för klienten från virtualiseringsservern vid olika nätverksdiamterar. Det andra testet gick ut på att mäta samma latens vid olika nätverksbelasting på anslutningen mellan klienten och virtualiseringsservern. När det blev tydligt att nyckelfaktorn var nätverksbelastningen skapades ett test för att undersöka klientens möjlighet till påverkan av bandbredden. Överföringen av data till användarens lokala skrivbord som i förlängningen huseras på virtualiseringsservern tog upp hela bandbredden och lämnade inget för VDI-trafiken och stänger i förlängningen ner hela VDI systemet. Detta löstes genom att implementera Quality Of Service medelst Traffic Policing . Därmed kan användarens möjlighet att nyttja bandbredden till virtualiseringsservern begränsas. / In a world where the demand for flexibility, security, and hardware optimization are key factors when it comes to implementing a corporate IT environment Virtual Desktop solutions a gaining more and more ground. With these environments there are also issues when it comes to user experience if the network in question is unable to fulfill the specifications that such an environment requires. We have looked at the implications some network variables might have for a VDI solution. To shed a light on these issues we have conducted two tests in an VDI environment. The first test consisted of measuring the latency at which the desktop on the client was rendered from the virtualization server at different network sizes. The second test was to measure the same latency at different bandwidth loads on the line between the client and the Virtualization Host. As we realised that the key factor was the bandwidth load, we made a test to measure the way a client could influence that bandwidth. We saw that by transferring data to the desktop (i.e. the Virtualization Host) one user could personally take up the whole bandwidth and leave noting for the VDI traffic, rendering it useless. This was solved by implementing Quality of Service in the form of Traffic policing, thus restricting the amount of bandwidth the user could use for file transfers.

Virtual Desktop Infrastructure

VDI

RTT

Round Trip Time

Network Load

Local Share

File transfer

Remote Desktop Services

Latency

Traffic Policing

Network diameter

Virtual Desktop Infrastructure

VDI

RTT

Round Trip Time

Nätverksbelastning

Local Share

Filöverföring

Remote Desktop Services

Latens

Traffic Policing

Nätverksdiameter

Computer Sciences

Datavetenskap (datalogi)

LoRa Radio Performance Analysis Based on AVR-RSS2 and RIOT-OS for Indoor IoT Applications

Yi, HongShuo, Dai, Duosi

January 2023

This thesis is dedicated to measuring the communication performance of LoRa technology in an indoor environment and providing insight into its potential application as an effective Internet of Things (IoT) communication solution in Low Power Wide Area Networks (LPWAN). Through careful experimentation and analysis, we assessed various transmission parameters such as spreading factor (SF), bandwidth (BW), Payload Length (PL), and LoRaWAN classes. Performance metrics including Receive Signal Strength Indicator (RSSI), Signal-to-Noise Ratio (SNR), Round-trip time (RTT), and Goodput are measured to evaluate LoRa’s performance under different settings. The research question addressed is whether LoRa can be effectively used for indoor wireless communication. Our findings demonstrate that LoRa technology exhibits good transmission range, reliability, and cost-effectiveness in indoor environments, making it suitable for some indoor IoT applications. We also examined the impact of different LoRaWAN device classes and highlighted the importance of balancing the SF and BW to optimize communication performance. In conclusion, this thesis offers a comprehensive understanding of the communication performance of LoRa technology in indoor environments, providing valuable guidance for its practical application in indoor IoT communication. The research findings presented herein serve as a significant reference for future research endeavors in this field, enabling further advancements in the domain of LoRa-based wireless communication technologies for indoor IoT applications. / Denna avhandling ägnas åt att mäta kommunikationsprestanda för LoRa-teknik i en inomhusmiljö och ger insikt i dess potentiella tillämpning som en effektiv kommunikationslösning för Internet of Things (IoT) i Low Power Wide Area Networks (LPWAN). Genom noggranna experiment och analys utvärderade vi olika överföringsparametrar som spridningsfaktor (SF), bandbredd (BW), nyttolastlängd och LoRaWAN-enhetens klasser. Prestandametriker inklusive Receive Signal Strength Indicator (RSSI), Signal-to-Noise Ratio (SNR), Round-trip time (RTT) och Goodput mäts för att utvärdera LoRa’s prestanda under olika inställningar. Forskningsfrågan som behandlas är om LoRa effektivt kan användas för inomhus trådlös kommunikation. Våra resultat visar att LoRa-teknik uppvisar bra överföringsområde, tillförlitlighet och kostnadseffektivitet i inomhusmiljöer, vilket gör det lämpligt för vissa inomhus-IoT-applikationer. Vi undersökte också inverkan av olika LoRaWAN-enhet klasser och framhävde vikten av att balansera SF och BW för att optimera kommunikationsprestanda. Sammanfattningsvis erbjuder denna avhandling en omfattande förståelse för kommunikationsprestanda för LoRa-teknik i inomhusmiljöer, vilket ger värdefull vägledning för dess praktiska tillämpning inom inomhus IoT-kommunikation. De forskningsresultat som presenteras här fungerar som en betydande referens för framtida forskningsinsatser inom detta område, vilket möjliggör ytterligare framsteg inom området för LoRa-baserade trådlösa kommunikationstekniker för inomhus IoT-applikationer.

LoRa

Indoor IoT (Internet of Things)

Signal strength

Round-trip time (RTT)

Goodput

LoRaWAN device classes

AVR-RSS2

RIOT-OS

LoRa

Inomhus-IoT (Internet of Things)

Signalstyrka

Rundresa-tid (RTT)

Goodput

LoRaWAN klasser

AVR-RSS2

RIOT-OS

Computer and Information Sciences

Data- och informationsvetenskap

Optimalizace predikce pozice v síti / Optimization of network position prediction

Pospíšil, Petr

January 2008

This work is about position prediction in network, it is focused to find Landmark closest to the Host in the network (with lowest distance vector). The algorithm is based on GNP system. In terms of GNP system simulation was selected method for mathematical part of position prediction. The method was Simplex Downhill. The designed algorithm was implemented in Java. In the first step chose Host continent by meassuring the distance vector. In next step is selected nearest part in the continent. In conclusion estimate Host its position and then closest Landmark. Results from this work is important for designing TTP protocol. The verdict is that the GNP can be used for TTP, but Landmarks must be located in uniform density.