Olof Sörnmo scite author profile

Olof Sörnmo

5Publications

95Citation Statements Received

99Citation Statements Given

How they've been cited

186

How they cite others

Affiliations

Cognimatics (Sweden), Lund University

Publications

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SMErobotics: Smart Robots for Flexible Manufacturing

Perzylo

Rickert

Kahl

et al. 2019

IEEE Robot. Automat. Mag.

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urrent market demands require an increasingly agile production environment throughout many manufacturing branches. Traditional automation systems and industrial robots, on the other hand, are often too inflexible to provide an economically viable business case for companies with rapidly changing products. The introduction of cognitive abilities into robotic and automation systems is, therefore, a necessary step toward lean changeover and seamless human-robot collaboration. In this article, we introduce the European Union (EU)funded research project SMErobotics (http://www.smerobotics .org/), which focuses on facilitating the use of robot systems in small and medium-sized enterprises (SMEs). We analyze open challenges for this target audience and develop multiple efficient technologies to address related issues. Realworld demonstrators of several end users and from multiple application domains show the impact these smart robots can have on SMEs. This article intends to give a broad overview of the research conducted in SMErobotics. Specific details of individual topics are provided through references to our previous publications.

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Integrated approach to robotic machining with macro/micro-actuation

Schneider

Olofsson

Sörnmo

et al. 2014

Robotics and Computer-Integrated Manufacturing

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Robot Joint Modeling and Parameter Identification Using the Clamping Method

Lehmann

Olofsson

Nilsson

et al. 2013

IFAC Proceedings Volumes

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Adaptive internal model control for mid-ranging of closed-loop systems with internal saturation

Sörnmo

Olofsson

Robertsson

et al. 2013

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Abstract-This paper considers the problem of performing mid-ranging control of two closed-loop controlled systems that have internal saturations. The problem originates from previous work in machining with industrial robots, where an external compensation mechanism is used to compensate for position errors. Because of the limited workspace and the considerably higher bandwidth of the compensator, a midranging control approach is proposed. An adaptive, modelbased solution is presented, which is verified through simulations and experiments, where a close correspondence of the obtained results is achieved. Comparing the IAE of experiments using the proposed controller to previously established methods, a performance increase of up to 56 % is obtained.

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Modeling and control of a piezo-actuated high-dynamic compensation mechanism for industrial robots

Olofsson

Sörnmo

Schneider

et al. 2011

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This paper presents a method for modeling and control of a piezo-actuated high-dynamic compensation mechanism for usage together with an industrial robot during a machining operation, such as milling in aluminium. The machining spindle was attached to the compensation mechanism and the robot held the workpiece. Due to the inherent resonant character of mechanical constructions of this type, and the nonlinear phenomena appearing in piezo actuators, control of the compensation mechanism is a challenging problem. This paper presents models of the construction, experimentally identified using subspace-based identification methods. A subsequent control scheme, based on the identified models, utilizing state feedback for controlling the position of the spindle is outlined. Results from experiments performed on a prototype of the compensation mechanism are also provided

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Olof Sörnmo

SMErobotics: Smart Robots for Flexible Manufacturing

Integrated approach to robotic machining with macro/micro-actuation

Robot Joint Modeling and Parameter Identification Using the Clamping Method

Adaptive internal model control for mid-ranging of closed-loop systems with internal saturation

Modeling and control of a piezo-actuated high-dynamic compensation mechanism for industrial robots

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