Topic
Image Series
About: Image Series is a research topic. Over the lifetime, 377 publications have been published within this topic receiving 3935 citations.
Papers published on a yearly basis
Papers
TL;DR: The experimental results show that TempCNNs are more accurate than the current state of the art for SITS classification, and some general guidelines on the network architecture, common regularization mechanisms, and hyper-parameter values such as batch size are provided.
Abstract: Latest remote sensing sensors are capable of acquiring high spatial and spectral Satellite Image Time Series (SITS) of the world. These image series are a key component of classification systems that aim at obtaining up-to-date and accurate land cover maps of the Earth’s surfaces. More specifically, current SITS combine high temporal, spectral and spatial resolutions, which makes it possible to closely monitor vegetation dynamics. Although traditional classification algorithms, such as Random Forest (RF), have been successfully applied to create land cover maps from SITS, these algorithms do not make the most of the temporal domain. This paper proposes a comprehensive study of Temporal Convolutional Neural Networks (TempCNNs), a deep learning approach which applies convolutions in the temporal dimension in order to automatically learn temporal (and spectral) features. The goal of this paper is to quantitatively and qualitatively evaluate the contribution of TempCNNs for SITS classification, as compared to RF and Recurrent Neural Networks (RNNs) —a standard deep learning approach that is particularly suited to temporal data. We carry out experiments on Formosat-2 scene with 46 images and one million labelled time series. The experimental results show that TempCNNs are more accurate than the current state of the art for SITS classification. We provide some general guidelines on the network architecture, common regularization mechanisms, and hyper-parameter values such as batch size; we also draw out some differences with standard results in computer vision (e.g., about pooling layers). Finally, we assess the visual quality of the land cover maps produced by TempCNNs.
526 citations
TL;DR: A preliminary study of four patients that experienced substantial brain deformation from gravity and correlate cortical shift measurements with model predictions shows that the brain shifted 5.7 mm in the direction of gravity and that model predictions could reduce this misregistration error to an average of 1.2 mm.
Abstract: Image-guided neurosurgery relies on accurate registration of the patient, the preoperative image series, and the surgical instruments in the same coordinate space. Recent clinical reports have documented the magnitude of gravity-induced brain deformation in the operating room and suggest these levels of tissue motion may compromise the integrity of such systems. The authors are investigating a model-based strategy which exploits the wealth of readily-available preoperative information in conjunction with intraoperatively acquired data to construct and drive a three dimensional (3-D) computational model which estimates volumetric displacements in order to update the neuronavigational image set. Using model calculations, the preoperative image database can be deformed to generate a more accurate representation of the surgical focus during an operation. In this paper, the authors present a preliminary study of four patients that experienced substantial brain deformation from gravity and correlate cortical shift measurements with model predictions. Additionally, they illustrate their image deforming algorithm and demonstrate that preoperative image resolution is maintained. Results over the four cases show that the brain shifted, on average, 5.7 mm in the direction of gravity and that model predictions could reduce this misregistration error to an average of 1.2 mm.
187 citations
Patent•
27 Dec 1993
TL;DR: In this article, an automated system for organizing, presenting, and manipulating medical images includes a database in which the medical images are structured into groups, each group including one or more image series, each image series including an ordered sequence of images which illustrate incrementally registered aspects of an anatomical target.
Abstract: An automated system for organizing, presenting, and manipulating medical images includes a database in which the medical images are structured into groups, each group including one or more image series, each image series including an ordered sequence of images which illustrate incrementally registered aspects of an anatomical target. Image series are presented in their sequential order either in a monitor presentation format which displays each sequence in its entirety in a single monitor display container or which presents two or more image series, image-by-image, in adjacent presentation areas of a series display container. The system includes a plurality of monitors in which all monitors, save one, produce display containers for image series presentation. One monitor is reserved for displaying a working palette to which images of the image series displayed on the other monitors may be moved. The system activates a monitor in a plurality of monitors in response to movement of a cursor between monitors. An active monitor is indicated by presentation of a control panel. The system also provides heads-up presentation of control panel icons at a cursor location outside of the control panel by sequentially changing the shape of the cursor to the icon shapes for user selection.
180 citations
Patent•
20 Jun 1995TL;DR: In this paper, a method for encoding a signal with a three dimensional image sequence using a series of left and right images is described, in which each image in the left image series is a picture formed by non-interlaced or interlaced scanned left line images, and each image from the right image series was a picture consisting of non-aligned or inter-aligned scanned right line images.
Abstract: A method is disclosed, for encoding a signal with a three dimensional image sequence using a series of left and right images. Each image in the left image series is a picture formed by non-interlaced or interlaced scanned left line images, and each image in the right image series is a picture formed by non-interlaced or interlaced scanned right line images. The left line images contained in the left picture are merged with the right line images contained in the right picture to produce an alternately arranged left and right line merged picture. The merged picture is encoded using an MPEG-2 compliant encoder.
131 citations
TL;DR: A MATLAB ® based image recognition algorithm has been implemented to automatically count and measure particles in multiphase systems to solve the problem of excessive manual work load in particulate systems.
125 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2022 | 1 |
| 2021 | 9 |
| 2020 | 16 |
| 2019 | 14 |
| 2018 | 18 |
| 2017 | 16 |