Your search keyword '"Koistinen, Olli-Pekka"' showing total 12 results

1. Nudged elastic band calculations accelerated with Gaussian process regression

Author

Koistinen, Olli-Pekka, Dagbjartsdóttir, Freyja B., Ásgeirsson, Vilhjálmur, Vehtari, Aki, and Jónsson, Hannes

Subjects

Physics - Chemical Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics, Statistics - Computation, Statistics - Machine Learning

Abstract

Minimum energy paths for transitions such as atomic and/or spin rearrangements in thermalized systems are the transition paths of largest statistical weight. Such paths are frequently calculated using the nudged elastic band method, where an initial path is iteratively shifted to the nearest minimum energy path. The computational effort can be large, especially when ab initio or electron density functional calculations are used to evaluate the energy and atomic forces. Here, we show how the number of such evaluations can be reduced by an order of magnitude using a Gaussian process regression approach where an approximate energy surface is generated and refined in each iteration. When the goal is to evaluate the transition rate within harmonic transition state theory, the evaluation of the Hessian matrix at the initial and final state minima can be carried out beforehand and used as input in the minimum energy path calculation, thereby improving stability and reducing the number of iterations needed for convergence. A Gaussian process model also provides an uncertainty estimate for the approximate energy surface, and this can be used to focus the calculations on the lesser-known part of the path, thereby reducing the number of needed energy and force evaluations to a half in the present calculations. The methodology is illustrated using the two-dimensional M\"uller-Brown potential surface and performance assessed on an established benchmark involving 13 rearrangement transitions of a heptamer island on a solid surface.

Published

2017

2. Minimum energy path calculations with Gaussian process regression

Author

Koistinen, Olli-Pekka, Maras, Emile, Vehtari, Aki, and Jónsson, Hannes

Subjects

Physics - Chemical Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics, Statistics - Computation, Statistics - Machine Learning

Abstract

The calculation of minimum energy paths for transitions such as atomic and/or spin re-arrangements is an important task in many contexts and can often be used to determine the mechanism and rate of transitions. An important challenge is to reduce the computational effort in such calculations, especially when ab initio or electron density functional calculations are used to evaluate the energy since they can require large computational effort. Gaussian process regression is used here to reduce significantly the number of energy evaluations needed to find minimum energy paths of atomic rearrangements. By using results of previous calculations to construct an approximate energy surface and then converge to the minimum energy path on that surface in each Gaussian process iteration, the number of energy evaluations is reduced significantly as compared with regular nudged elastic band calculations. For a test problem involving rearrangements of a heptamer island on a crystal surface, the number of energy evaluations is reduced to less than a fifth. The scaling of the computational effort with the number of degrees of freedom as well as various possible further improvements to this approach are discussed.

Published

2017

3. Distributed neural signatures of natural audiovisual speech and music in the human auditory cortex

Author

Salmi, Juha, Koistinen, Olli-Pekka, Glerean, Enrico, Jylänki, Pasi, Vehtari, Aki, Jääskeläinen, Iiro P., Mäkelä, Sasu, Nummenmaa, Lauri, Nummi-Kuisma, Katarina, Nummi, Ilari, and Sams, Mikko

Published

2017

4. Minimum Mode Saddle Point Searches Using Gaussian Process Regression with Inverse-Distance Covariance Function

Author

Koistinen, Olli-Pekka, primary, Ásgeirsson, Vilhjálmur, additional, Vehtari, Aki, additional, and Jónsson, Hannes, additional

Published

2019

5. Algorithms for Finding Saddle Points and Minimum Energy Paths Using Gaussian Process Regression

Author

Koistinen, Olli-Pekka, Aki Vehtari, Raunvísindadeild (HÍ), Faculty of Physical Sciences (UI), Verkfræði- og náttúruvísindasvið (HÍ), School of Engineering and Natural Sciences (UI), Háskóli Íslands, University of Iceland, and Aalto University

Subjects

Líkön, Mnimum energy path, Machine learning, Doktorsritgerðir, Saddle point, Gaussian process, Efnahvörf, Vélrænt nám, Tölvunarfræði

Abstract

Publication I: Olli-Pekka Koistinen, Emile Maras, Aki Vehtari, and Hannes Jónsson. Minimum energy path calculations with Gaussian process regression. Nanosystems: Physics, Chemistry, Mathematics, volume 7, issue 6, pages 925-935, December 2016. DOI:10.17586/2220-8054-2016-7-6-925-935 ----------------------------------------------------------------------------------------------------------------------------------------------------- Publication II: Olli-Pekka Koistinen, Freyja B. Dagbjartsdóttir, Vilhjálmur Ásgeirsson, Aki Vehtari, and Hannes Jónsson. Nudged elastic band calculations accelerated with Gaussian process regression. The Journal of Chemical Physics, volume 147, issue 15, article 152720, 14 pages, September 2017. DOI:10.1063/1.4986787 ----------------------------------------------------------------------------------------------------------------------------------------------------- Publication III: Olli-Pekka Koistinen, Vilhjálmur Ásgeirsson, Aki Vehtari, and Hannes Jónsson. Nudged elastic band calculations accelerated with Gaussian process regression based on inverse interatomic distances. Journal of Chemical Theory and Computation, volume 15, issue 12, pages 6738-6751, October 2019. DOI:10.1021/acs.jctc.9b00692 https://pubs.acs.org/articlesonrequest/AOR-nEFCEeSXvun84rqCJJtb ----------------------------------------------------------------------------------------------------------------------------------------------------- Publication IV: Olli-Pekka Koistinen, Vilhjálmur Ásgeirsson, Aki Vehtari, and Hannes Jónsson. Minimum mode saddle point searches using Gaussian process regression with inverse-distance covariance function. Accepted for publication in Journal of Chemical Theory and Computation, 20 pages, December 2019. DOI:10.1021/acs.jctc.9b01038 https://pubs.acs.org/articlesonrequest/AOR-rgnUW6uztWRZqrKz2NyX, Chemical reactions and other transitions involving rearrangements of atoms can be studied theoretically by analyzing a potential energy surface defined in a high-dimensional space of atom coordinates. Local minimum points of the energy surface correspond to stable states of the system, and minimum energy paths connecting these states characterize mechanisms of possible transitions. Of particular interest is often the maximum point of the minimum energy path, which is located at a first-order saddle point of the energy surface and can be used to estimate the activation energy and rate of the particular transition. Minimum energy paths and saddle points between two known states have been traditionally searched with iterative methods where a chain of discrete points of the coordinate space is moved and stretched towards a minimum energy path according to imaginary forces based on gradient vectors of the potential energy surface. The actual saddle point can be found by reversing the component of the gradient vector parallel to the path at one of the points of the chain and letting this point climb along the path towards the saddle point. If the end state of the transition is unknown, the saddle point can be searched correspondingly by rotating a pair of closely spaced points towards the orientation of the lowest curvature, reversing the gradient component corresponding to this direction, and moving the pair towards the saddle point. These methods may, however, require hundreds of iterations, and since accurate evaluation of the gradient vector is often computationally expensive, the information obtained from previous iterations should be utilized as efficiently as possible to decrease the number of iterations. Using statistical models, an approximation to the energy surface can be constructed, and a minimum energy path or a saddle point can be searched on the approximate surface. The accuracy of the solution can be checked with further evaluations, which can be then used to update the model for following iterations. In this dissertation, machine learning algorithms based on Gaussian process regression are developed to enhance searches of minimum energy paths and saddle points. Gaussian process models serve here as flexible prior probability models for potential energy surfaces. Observed values of both energy and its derivatives can be used to update the model, and the posterior predictive distribution obtained as a result of Bayesian inference provides also an uncertainty estimate, which can be utilized when selecting new observation points. Separate methods are presented both for finding a minimum energy path between two known states and a saddle point located in the vicinity of a given start point. Based on simple test examples, the methods utilizing Gaussian processes may reduce the number of evaluations to a fraction of what is required by conventional methods., Kemiallisia reaktioita ja muita atomien liikkeisiin perustuvia tapahtumia voidaan tarkastella teoreettisesti atomien koordinaattien muodostamassa moniulotteisessa avaruudessa määritellyn potentiaalienergiapinnan avulla. Energiapinnan paikalliset minimikohdat vastaavat systeemin vakaita tiloja, ja näitä tiloja yhdistävät minimienergiapolut kuvaavat mahdollisia reaktiomekanismeja. Erityisen mielenkiinnon kohteena on usein minimienergiapolun globaali maksimikohta, joka sijaitsee potentiaalienergiapinnan satulapisteessä ja jonka avulla voidaan arvioida kyseisen reaktion aktivoitumisenergiaa ja reaktionopeutta. Kahden tunnetun tilan välisiä minimienergiapolkuja ja satulapisteitä on perinteisesti etsitty iteratiivisilla menetelmillä, joissa erillisistä koordinaattiavaruuden pisteistä muodostuvaa ketjua liikutetaan ja venytetään kohti minimienergiapolkua potentiaalienergiapinnan gradienttivektorien avulla laskettujen kuvitteellisten voimien perusteella. Varsinainen satulapiste voidaan määrittää kääntämällä gradienttivektorin polun suuntainen komponentti yhdessä ketjun pisteistä, jonka annetaan nousta polun suuntaisesti kohti satulapistettä. Jos reaktion lopputila on tuntematon, voidaan satulapistettä etsiä vastaavasti kiertämällä kahden lähekkäisen pisteen muodostamaa paria potentiaalienergiapinnan pienimmän kaarevuuden suuntaiseksi, kääntämällä tätä suuntaa vastaava gradienttikomponentti, ja liikuttamalla pisteparia kohti satulapistettä. Nämä meneltelmät voivat kuitenkin vaatia satoja iteraatioita, ja koska gradienttivektorin tarkka määrittäminen on usein laskennallisesti raskasta, tulisi aikaisemmista iteraatioista saatu informaatio hyödyntää mahdollisimman tehokkaasti iteraatioiden vähentämiseksi. Tilastollisten mallien avulla energiapinnalle voidaan muodostaa likimääräinen arvio, ja minimienergiapolkua tai satulapistettä voidaan etsiä likimääräiseltä pinnalta. Ratkaisu voidaan tarkistaa uusien tarkkojen havaintojen avulla, joita voidaan puolestaan käyttää mallin tarkentamiseksi mahdollisia seuraavia iteraatioita varten. Tässä väitöskirjassa kehitetään gaussisiin prosesseihin perustuvia koneoppimisalgoritmeja minimienergiapolkujen ja satulapisteiden etsinnän nopeuttamiseksi. Gaussiset prosessit toimivat tässä tapauksessa joustavina prioritodennäköisyysmalleina potentiaalienergiapinnoille. Mallin päivittämiseksi voidaan käyttää sekä energian että gradienttikomponenttien havaittuja arvoja, ja Bayes-päättelyn tuloksena saatava ennustejakauma sisältää myös epävarmuusarvion, jota voidaan käyttää hyväksi uusien havaintopisteiden valinnassa. Väitöskirjassa esitetään menetelmät sekä kahden tunnetun tilan välisen minimienergiapolun määrittämiseen että annetun aloituspisteen lähistöllä sijaitsevan satulapisteen etsimiseen. Yksinkertaisten testiesimerkkien perusteella gaussisia prosesseja hyödyntävät menetelmät voivat vähentää tarkkojen havaintojen määrän murto-osaan perinteisten menetelmien vaatimista havaintomääristä., Eiginleika efnahvarfa og annarra umraðana atóma er hægt að kanna með því að skoða orkuyfirborðið, skilgreint sem orka kerfisins sem fall af atómhnitunum. Staðbundin lágmörk á orkuyfirborðinu samsvara ástöndum sem kerfið getur verið í og lágmarksorkuferlar milli þeirra einkenna gang mögulegra umraðana atómanna. Hámörk á lágmarksorkuferlum eru sérlega mikilvæg. Þau samsvara fyrsta stigs söðulpunktum og gefa mat á virkjunarorku og þar með hraða samsvarandi umröðunar. Lágmarksorkuferlar og söðulpunktar milli tveggja þekktra ástanda eru gjarnan fundnir með ítrekunaraðferðum þar sem röð af ímyndum af kerfinu mynda feril milli endapunktanna og eru færðar til þangað til þær liggja á lágmarksorkuferlinum. Færslan í hverri ítrekun er fundin út frá stiglunum á orkuyfirborðinu. Söðulpunktinn er hægt að finna með því að færa orkuhæstu ímyndina í átt stigilsins eftir að þætti hans í stefnu ferilsins hefur verið snúið við. Þannig færist sú ímynd upp í orku að söðulpunktinum. Ef lokaástand umröðuninnar er ekki þekkt er hægt að finna fyrsta stigs söðulpunkt með því að nota par ímynda af kerfinu sem eru þétt saman og myndar tvennu. Henni er snúið til að finna stefnuna með lægstan krappa á orkuyfirborðinu og síðan færð í átt stigulsins eftir að þátturinn í stefnu lægsta krappans hefur verið speglaður. Þannig færist tvennan að söðulpunktinum. Þessi aðferð getur þurft hundruða ítrekana og þar eð útreikningar á orkustiglinum eru oft þungir er mikilvægt að nýta upplýsingar úr fyrri ítrekunum eins vel og hægt er til að fækka ítrekunum. Með því að nota tölfræðileg líkön er hægt að búa til nálgun fyrir orkuyfirborðið og leita að söðulpunktinum á því yfirborði. Lausnina er hægt að sanreyna með frekari útreikningum á orkustiglinum sem síðan er hægt að nota til að bæta nálgunina fyrir næstu færslur tvennunnar. Í þessari ritgerð er vélrænn lærdómur sem byggður er á Gaussferlaaðhvarfi notaður til að hraða reikningum á lágmarksorkuferlum og söðulpunktum. Líkön fyrir orkuyfirborðið eru búin til með út frá þekktum gildum á orkunni og stiglinum með tölfræðilegum aðferðum Bayes og mat fundið á óvissunni í líkaninu sem hægt er að nýta til að ákveða hvaða punkt er best að reikna í næstu ítrekun. Mismunandi aðferðir eru þróaðar bæði til að finna lágmarksorkuferla milli tveggja þekktra ástanda og til að finna söðulpunkt í nágreni gefins upphafspunkts. Reikningar á ýmsum mismunandi kerfum sýna að með þessu móti er hægt að fækka útreikningum á orkunni og stiglinum mjög verulega í samanburði við þær aðferðir sem nú eru notaðar., Academy of Finland; Finnish Cultural Foundation; Icelandic Research Fund

Published

2019

6. Nudged Elastic Band Calculations Accelerated with Gaussian Process Regression Based on Inverse Inter-Atomic Distances

Author

Koistinen, Olli-Pekka, primary, Ásgeirsson, Vilhjálmur, additional, Vehtari, Aki, additional, and Jónsson, Hannes, additional

Published

2019

7. Nudged Elastic Band Calculations Accelerated with Gaussian Process Regression Based on Inverse Interatomic Distances

Author

Koistinen, Olli-Pekka, primary, Ásgeirsson, Vilhjálmur, additional, Vehtari, Aki, additional, and Jónsson, Hannes, additional

Published

2019

8. Brain-to-brain hyperclassification reveals action-specific motor mapping of observed actions in humans

Author

Smirnov, Dmitry, primary, Lachat, Fanny, additional, Peltola, Tomi, additional, Lahnakoski, Juha M., additional, Koistinen, Olli-Pekka, additional, Glerean, Enrico, additional, Vehtari, Aki, additional, Hari, Riitta, additional, Sams, Mikko, additional, and Nummenmaa, Lauri, additional

Published

2017

9. Nudged elastic band calculations accelerated with Gaussian process regression

Author

Koistinen, Olli-Pekka, primary, Dagbjartsdóttir, Freyja B., additional, Ásgeirsson, Vilhjálmur, additional, Vehtari, Aki, additional, and Jónsson, Hannes, additional

Published

2017

10. Minimum Mode Saddle Point Searches Using Gaussian Process Regression with Inverse-Distance Covariance Function

Author

Koistinen, Olli-Pekka, Ásgeirsson, Vilhjálmur, Vehtari, Aki, and Jónsson, Hannes

Abstract

The minimum mode following method can be used to find saddle points on an energy surface by following a direction guided by the lowest curvature mode. Such calculations are often started close to a minimum on the energy surface to find out which transitions can occur from an initial state of the system, but it is also common to start from the vicinity of a first-order saddle point making use of an initial guess based on intuition or more approximate calculations. In systems where accurate evaluations of the energy and its gradient are computationally intensive, it is important to exploit the information of the previous evaluations to enhance the performance. Here, we show that the number of evaluations required for convergence to the saddle point can be significantly reduced by making use of an approximate energy surface obtained by a Gaussian process model based on inverse interatomic distances, evaluating accurate energy and gradient at the saddle point of the approximate surface and then correcting the model based on the new information. The performance of the method is tested with start points chosen randomly in the vicinity of saddle points for dissociative adsorption of an H2molecule on the Cu(110) surface and three gas phase chemical reactions.

Published

2020

11. Distributed neural signatures of natural audiovisual speech and music in the human auditory cortex.

Author

Koistinen, Olli-Pekka, Glerean, Enrico, Jylänki, Pasi, Vehtari, Aki, Jääskeläinen, Iiro P., Mäkelä, Sasu, Nummi, Ilari, Sams, Mikko, Salmi, Juha, Nummenmaa, Lauri, and Nummi-Kuisma, Katarina

Subjects

*AUDITORY cortex, *AUDITORY perception, *ARTIFICIAL neural networks, *BAYESIAN analysis, *LOGISTIC regression analysis

Abstract

During a conversation or when listening to music, auditory and visual information are combined automatically into audiovisual objects. However, it is still poorly understood how specific type of visual information shapes neural processing of sounds in lifelike stimulus environments. Here we applied multi-voxel pattern analysis to investigate how naturally matching visual input modulates supratemporal cortex activity during processing of naturalistic acoustic speech, singing and instrumental music. Bayesian logistic regression classifiers with sparsity-promoting priors were trained to predict whether the stimulus was audiovisual or auditory, and whether it contained piano playing, speech, or singing. The predictive performances of the classifiers were tested by leaving one participant at a time for testing and training the model using the remaining 15 participants. The signature patterns associated with unimodal auditory stimuli encompassed distributed locations mostly in the middle and superior temporal gyrus (STG/MTG). A pattern regression analysis, based on a continuous acoustic model, revealed that activity in some of these MTG and STG areas were associated with acoustic features present in speech and music stimuli. Concurrent visual stimulus modulated activity in bilateral MTG (speech), lateral aspect of right anterior STG (singing), and bilateral parietal opercular cortex (piano). Our results suggest that specific supratemporal brain areas are involved in processing complex natural speech, singing, and piano playing, and other brain areas located in anterior (facial speech) and posterior (music-related hand actions) supratemporal cortex are influenced by related visual information. Those anterior and posterior supratemporal areas have been linked to stimulus identification and sensory-motor integration, respectively. [ABSTRACT FROM AUTHOR]

Published

2017

12. Bayesian Classification of fMRI Patterns for Natural Audiovisual Stimuli Using Sparsity Promoting Laplace Priors

Author

Jylänki, Pasi, Vehtari, Aki, Lääketieteellisen tekniikan ja laskennallisen tieteen laitos, Lampinen, Jouko, Koistinen, Olli-Pekka, Jylänki, Pasi, Vehtari, Aki, Lääketieteellisen tekniikan ja laskennallisen tieteen laitos, Lampinen, Jouko, and Koistinen, Olli-Pekka

Abstract

Bayesian linear binary classification models with sparsity promoting Laplace priors were applied to discriminate fMRI patterns related to natural auditory and audiovisual speech and music stimuli. The region of interest comprised the auditory cortex and some surrounding regions related to auditory processing. Truly sparse posterior mean solutions for the classifier weights were obtained by implementing an automatic relevance determination method using expectation propagation (ARDEP). In ARDEP, the Laplace prior was decomposed into a Gaussian scale mixture, and these scales were optimised by maximising their marginal posterior density. ARDEP was also compared to two other methods, which integrated approximately over the original Laplace prior: LAEP approximated the posterior as well by expectation propagation, whereas MCMC used a Markov chain Monte Carlo simulation method implemented by Gibbs sampling. The resulting brain maps were consistent with previous studies for simpler stimuli and suggested that the proposed model is also able to reveal additional information about activation patterns related to natural audiovisual stimuli. The predictive performance of the model was significantly above chance level for all approximate inference methods. Regardless of intensive pruning of features, ARDEP was able to describe all of the most discriminative brain regions obtained by LAEP and MCMC. However, ARDEP lost the more specific shape of the regions by representing them as one or more smaller spots, removing also some relevant features., Bayesilaisia lineaarisia binääriluokittelumalleja ja harvoja ratkaisuja suosivia Laplace- prioreja sovellettiin erottelemaan luonnollisiin auditorisiin ja audiovisuaalisiin puhe- ja musiikkiärsykkeisiin liittyvää fMRI-aktivaatiota kuuloaivokuorella ja sitä ympäröivillä auditoriseen prosessointiin liittyvillä alueilla. Absoluuttisen harvoja posteriorisia odotusarvoratkaisuja luokittimien painoille saatiin expectation propagation -algoritmin avulla toteutetulla automatic relevance determination -menetelmällä (ARDEP). ARDEP-menetelmässä hyödynnettiin Laplace-priorin gaussista skaalahajotelmaa, jonka skaalaparametrit optimoitiin maksimoimalla niiden marginaalinen posterioritiheys. Menetelmää verrattiin myös kahteen muuhun menetelmään, jotka integroivat approksimatiivisesti alkuperäisen Laplace-priorin yli: LAEP approksimoi posteriorijakaumaa niin ikään expectation propagation -algoritmin avulla, kun taas MCMC käytti Gibbs -poiminnalla toteutettua Markovin ketju Monte Carlo -simulaatiomenetelmää. Tuloksena saadut aivokartat olivat linjassa aikaisempien, yksinkertaisemmilla ärsykkeillä saatujen tutkimustulosten kanssa, ja niiden perusteella bayesilaisten luokittelumallien avulla on mahdollista saada myös uudenlaista tietoa siitä, miten luonnollisia audiovisuaalisia ärsykkeitä koodataan aivoissa. Mallien ennustuskyky oli kaikilla approksimaatiomenetelmillä merkittävästi sattumanvaraista tasoa korkeampi. Piirteiden voimakkaasta karsinnasta huolimatta ARDEP pystyi kuvaamaan kaikki huomattavimmat LAEP:n ja MCMC:n erottelemat aivoalueet. ARDEP menetti kuitenkin alueiden tarkemman muodon esittämällä ne yhtenä tai useampana pienempänä alueena, poistaen myös osan merkittävistä piirteistä.

Published

2012