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Cognitive Neurodynamics

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02-01-2019 | Research Article

Guiding attention of faces through graph based visual saliency (GBVS)

Authors: Ravi Kant Kumar, Jogendra Garain, Dakshina Ranjan Kisku, Goutam Sanyal

Published in: Cognitive Neurodynamics | Issue 2/2019

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Abstract

In a general scenario, while attending a scene containing multiple faces or looking towards a group photograph, our attention does not go equal towards all the faces. It means, we are naturally biased towards some faces. This biasness happens due to availability of dominant perceptual features in those faces. In visual saliency terminology it can be called as ‘salient face’. Human’s focus their gaze towards a face which carries the ‘dominating look’ in the crowd. This happens due to comparative saliency of the faces. Saliency of a face is determined by its feature dissimilarity with the surrounding faces. In this context there is a big role of human psychology and its cognitive science too. Therefore, enormous researches have been carried out towards modeling the computer vision system like human’s vision. This paper proposed a graphical based bottom up approach to point up the salient face in the crowd or in an image having multiple faces. In this novel method, visual saliencies of faces have been calculated based on the intensity values, facial areas and their relative spatial distances. Experiment has been conducted on gray scale images. In order to verify this experiment, three level of validation has been done. In the first level, our results have been verified with the prepared ground truth. In the second level, intensity scores of proposed saliency maps have been cross verified with the saliency score. In the third level, saliency map is validated with some standard parameters. The results are found to be interesting and in some aspects saliency predictions are like human vision system. The evaluation made with the proposed approach shows moderately boost up results and hence, this idea can be useful in the future modeling of intelligent vision (robot vision) system.

next article Effects of degree and symmetricity of bilateral spectral smearing, carrier frequency, and subject sex on amplitude of evoked auditory steady-state response signal

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Achanta R, Hemami S, Estrada F, Susstrunk S (2009) Frequency-tuned salient region detection. In: IEEE conference on computer vision and pattern recognition, 2009. CVPR 2009. IEEE, pp 1597–1604

Bailey DG, Hodgson RM (1985) Range filters: localintensity subrange filters and their properties. Image Vis Comput 3(3):99–110CrossRef

Bakouie F, Pishnamazi M, Zeraati R, Gharibzadeh S (2017) Scale-freeness of dominant and piecemeal perceptions during binocular rivalry. Cognit Neurodyn 11(4):319–326CrossRef

Borji A, Itti L (2012) Exploiting local and global patch rarities for saliency detection. In: 2012 IEEE conference on computer vision and pattern recognition (CVPR). IEEE, pp 478–485

Cheng MM, Mitra NJ, Huang X, Hu SM (2014) Salientshape: group saliency in image collections. Vis Comput 30(4):443–453CrossRef

Cheng MM, Mitra NJ, Huang X, Torr PH, Hu SM (2015) Global contrast based salient region detection. IEEE Trans Pattern Anal Mach Intell 37(3):569–582PubMedCrossRef

Comaniciu D, Meer P (2002) Mean shift: a robust approach toward feature space analysis. IEEE Trans Pattern Anal Mach Intell 24(5):603–619CrossRef

Cootes TF, Taylor CJ, Cooper DH, Graham J (1995) Active shape models-their training and application. Comput Vis Image Underst 61(1):38–59CrossRef

Cordiner A, Ogunbona P, Li W (2009) Face detection using generalised integral image features. In: 2009 16th IEEE international conference on image processing (ICIP). IEEE, pp 1229–1232

Di Maio V, Santillo S, Sorgente A, Vanacore P, Ventriglia F (2018) Influence of active synaptic pools on the single synaptic event. Cognit Neurodyn 12(4):391–402CrossRef

Frintrop S, Rome E, Christensen HI (2010) Computational visual attention systems and their cognitive foundations: a survey. ACM Trans Appl Percept (TAP) 7(1):6

Goferman S, Zelnik-Manor L, Tal A (2012) Context-aware saliency detection. IEEE Trans Pattern Anal Mach Intell 34(10):1915–1926PubMedCrossRef

Gottumukkal R, Asari VK (2004) An improved face recognition technique based on modular PCA approach. Pattern Recognit Lett 25(4):429–436CrossRef

Harel J, Koch C, Perona P (2006) Graph-based visual saliency. In: NIPS, vol 1, no 2, p 5

Heisele B, Ho P, Wu J, Poggio T (2003) Face recognition: component-based versus global approaches. Comput Vis Image Underst 91(1):6–21CrossRef

Hu Y, Rajan D, Chia LT (2005) Adaptive local context suppression of multiple cues for salient visual attention detection. In: 2005 IEEE international conference on multimedia and expo. IEEE, p 4

Itti L (2000) Models of bottom-up and top-down visual attention. Doctoral dissertation, California Institute of Technology

Itti L, Koch C (2000) A saliency-based search mechanism for overt and covert shifts of visual attention. Vis Res 40(10):1489–1506PubMedCrossRef

Itti L, Koch C (2001) Computational modelling of visual attention. Nat Rev Neurosci 2(3):194–203PubMedCrossRef

Itti L, Koch C, Niebur E (1998) A model of saliency-based visual attention for rapid scene analysis. IEEE Trans Pattern Anal Mach Intell 20(11):1254–1259CrossRef

Jafri R, Arabnia HR (2009) A survey of face recognition techniques. JIPS 5(2):41–68

Jiang M, Xu J, Zhao Q (2014) Saliency in crowd. In: European conference on computer vision. Springer, Cham, pp 17–32

Kant Kumar R, Garain J, Ranjan Kisku D, Sanyal G (2018) Estimating attention of faces due to its growing level of emotions. In: Proceedings of the IEEE conference on computer vision and pattern recognition workshops, pp 1952–1960

Kirby M, Sirovich L (1990) Application of the Karhunen-Loeve procedure for the characterization of human faces. IEEE Trans Pattern Anal Mach Intell 12(1):103–108CrossRef

Koch C, Ullman S (1987) Shifts in selective visual attention: towards the underlying neural circuitry. In: Vaina LM (ed) Matters of intelligence. Springer, Dordrecht, pp 115–141CrossRef

Kucerova J (2011) Saliency map augmentation with facial detection. In: Proceedings of the 15th Central European seminar on computer graphics

Kumar RKGarain J, Kisku DR, Sanyal G (2015) A novel approach to enlighten the effect of neighbor faces during attending a face in the crowd. In: TENCON 2015-2015 IEEE Region 10 conference. IEEE, pp 1–4

Kumar RK, Garain J, Sanyal G, Kisku DR (2015) Estimating normalized attention of viewers on account of relative visual saliency of faces (NRVS). Int J Softw Eng Appl 9(7):85–92

Kumar RK, Garain J, Kisku DR, Sanyal G (2018) Constraint saliency based intelligent camera for enhancing viewers attention towards intended face. Pattern Recognit Lett. https://doi.org/10.1016/j.patrec.2018.01.002 CrossRef

Langton SR, Law AS, Burton AM, Schweinberger SR (2008) Attention capture by faces. Cognition 107(1):330–342PubMedCrossRef

Lawrence S, Giles CL, Tsoi AC, Back AD (1997) Face recognition: a convolutional neural-network approach. IEEE Trans Neural Netw 8(1):98–113PubMedCrossRef

Li J, Tian Y, Huang T (2014) Visual saliency with statistical priors. Int J Comput Vis 107(3):239–253CrossRef

Martinez-Conde S, Macknik SL, Hubel DH (2004) The role of fixational eye movements in visual perception. Nat Rev Neurosci 5(3):229–240PubMedCrossRef

Mateos DM, Erra RG, Wennberg R, Velazquez JP (2018) Measures of entropy and complexity in altered states of consciousness. Cognit Neurodyn 12(1):73–84CrossRef

Min X, Zhai G, Gu K, Liu J, Wang S, Zhang X, Yang X (2017a) Visual attention analysis and prediction on human faces. Inf Sci 420:417–430CrossRef

Min X, Zhai G, Gu K, Yang X (2017b) Fixation prediction through multimodal analysis. ACM Trans Multimedia Comput Commun Appl (TOMM) 13(1):6

Nefian AV, Hayes MH (1998) Hidden Markov models for face recognition. In: Proceedings of the 1998 IEEE international conference on acoustics, speech and signal processing, 1998, vol 5. IEEE, pp 2721–2724

Pal R, Mukherjee A, Mitra P, Mukherjee J (2010) Modelling visual saliency using degree centrality. IET Comput Vis 4(3):218–229CrossRef

Pal R (2014) Computational models of visual attention: a survey. In: Srivastava R, Singh SK, Shukla KK (eds) Research developments in computer vision and image processing: methodologies and applications, 1st edn. IGI Global, USA, pp 54–76CrossRef

Peters RJ, Itti L (2007) Beyond bottom-up: Incorporating task-dependent influences into a computational model of spatial attention. In: IEEE conference on computer vision and pattern recognition, 2007. CVPR’07. IEEE, pp 1–8

Riche N, Mancas M, Duvinage M, Mibulumukini M, Gosselin B, Dutoit T (2013) A multi-scale rarity-based saliency detection with its comparative statistical analysis. Signal Process Image Commun 28(6):642–658CrossRef

Roy S, Mitra P (2016) Visual saliency detection: a Kalman filter based approach. arXiv preprint arXiv:1604.04825

Salah AA, Alpaydin E, Akarun L (2002) A selective attention-based method for visual pattern recognition with application to handwritten digit recognition and face recognition. IEEE Trans Pattern Anal Mach Intell 24(3):420–425CrossRef

Tang C, Wang P, Zhang C, Li W (2017) Salient object detection via weighted low rank matrix recovery. IEEE Signal Process Lett 24(4):490–494CrossRef

Thomaz CE, Giraldi GA (2010) A new ranking method for principal components analysis and its application to face image analysis. Image Vis Comput 28(6):902–913CrossRef

Tolba AS, El-Baz AH, El-Harby AA (2006) Face recognition: a literature review. Int J Signal Process 2(2):88–103

Urakawa T, Bunya M, Araki O (2017) Involvement of the visual change detection process in facilitating perceptual alternation in the bistable image. Cognit Neurodyn 11(4):307–318CrossRef

Viola P, Jones M (2001) Rapid object detection using a boosted cascade of simple features. In: Proceedings of the 2001 IEEE computer society conference on computer vision and pattern recognition, 2001. CVPR 2001, vol 1. IEEE, pp I–I

Viola P, Jones MJ (2004) Robust real-time face detection. Int J Comput Vis 57(2):137–154CrossRef

Võ MLH, Smith TJ, Mital PK, Henderson JM (2012) Do the eyes really have it? Dynamic allocation of attention when viewing moving faces. J Vis 12(13):3PubMedCrossRef

Wang J, Yin L, Moore J (2007) Using geometric properties of topographic manifold to detect and track eyes for human-computer interaction. ACM Trans Multimed Comput Commun Appl (TOMM) 3(4):3

Wang Q, Zheng W, Piramuthu R (2016) Grab: visual saliency via novel graph model and background priors. In: Proceedings of the IEEE conference on computer vision and pattern recognition, pp 535–543

Wei H, Dai D, Bu Y (2017) A plausible neural circuit for decision making and its formation based on reinforcement learning. Cognit Neurodyn 11(3):259–281CrossRef

Yang P (2011) Facial expression recognition and expression intensity estimation. Doctoral dissertation, Rutgers University-Graduate School-New Brunswick

Zanca D, Gori M (2017) Variational laws of visual attention for dynamic scenes. In: Proceedings of the 2017 neural information processing systems, 2017, NIPS 2017, pp 3823–3832

Zhang L, Yang C, Lu H, Ruan X, Yang MH (2017a) Ranking saliency. IEEE Trans Pattern Anal Mach Intell 39(9):1892–1904PubMedCrossRef

Zhang J, Ehinger KA, Wei H, Zhang K, Yang J (2017b) A novel graph-based optimization framework for salient object detection. Pattern Recognit 64:39–50CrossRef

Zhao W, Chellappa R, Phillips PJ, Rosenfeld A (2003) Face recognition: a literature survey. ACM Comput Surv (CSUR) 35(4):399–458CrossRef

Zhao Q, Ge SS, Ye M, Liu S, He W (2016) Learning saliency features for face detection and recognition using multi-task network. Int J Soc Robot 8(5):709–720CrossRef

Zhu X, Tang C, Wang P, Xu H, Wang M, Chen J, Tian J (2018) Saliency detection via affinity graph learning and weighted manifold ranking. Neurocomputing 312:239–250CrossRef

Zommara NM, Takahashi M, Ounjai K, Lauwereyns J (2018) A gaze bias with coarse spatial indexing during a gambling task. Cognit Neurodyn 12(2):171–181CrossRef

Title: Guiding attention of faces through graph based visual saliency (GBVS)
Authors: Ravi Kant Kumar
Jogendra Garain
Dakshina Ranjan Kisku
Goutam Sanyal
Publication date: 02-01-2019
Publisher: Springer Netherlands
Published in: Cognitive Neurodynamics / Issue 2/2019
Print ISSN: 1871-4080
Electronic ISSN: 1871-4099
DOI: https://doi.org/10.1007/s11571-018-9515-z

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