Your search keyword '"Piantini, S."' showing total 13 results

1. In-depth study of road accidents in Florence: understanding the biomechanical effects in major trauma involving vulnerable road users

Author

Franci, A, Piantini, S, Pierini, M, Peris, A, and Mangini, M

Published

2015

2. Thia-Bridged Triarylamine Hetero[4]Helicenes: Regioselective Synthesis and Functionalization

Author

Menichetti, S., Faggi, C., Onori, M., Piantini, S., Ferreira, M., Rocchi, S., Lupi, M., Marin, I., Maggini, M., and Viglianisi, C.

Subjects

Regioselectivity, Electrophilic aromatic substitution, Sulfur heterocycles, Chirality, Helicenes

Published

2019

3. Valutazione dell'efficacia di sistemi di frenata autonoma per pedoni nella riduzione delle lesioni gravi o mortali in ambito urbano

Author

Piantini, S., Savino, G., Pierini, M., and Baldanzini, N.

Subjects

AEB, ADAS, evitabilità urto, pedone, incidente stradale, rischio, lesioni, mortalità

Published

2017

4. ANALISI DELLA LESIVITÀ E DEI MECCANISMI DI CAUSA NEGLI INCIDENTI STRADALI AUTO-MOTO IN AMBITO URBANO

Author

Piantini, S., Pierini, M., and Baldanzini, N.

Subjects

Sorgente lesione, motociclo, lesioni motociclistiche, incidenti stradali urbani

Published

2016

5. An Overview on Pedestrians and Cyclists Serious Injuries in Urban Accidents

Author

Piantini, S., Baldanzini, N., Pierini, M., Mangini, M., Andrea Franci, and Peris, A.

Subjects

Cyclist injuries, In‐depth Investigation, Pedestrian injuries, Vulnerable Road User, Urban accident

Published

2015

6. Design of a Motorcycle Steering Damper for a Safer Ride

Author

Marco Pierini, Cosimo Monti, Simone Piantini, Niccolò Baldanzini, Alessandro Giorgetti, Piantini, S., Giorgetti, A., Baldanzini, N., Monti, C., and Pierini, M.

Subjects

safety, Control and Optimization, Speed wobble, Computer science, Multiphysics, steering damper, lcsh:Mechanical engineering and machinery, 02 engineering and technology, Industrial and Manufacturing Engineering, Automotive engineering, PTW, Damper, magneto-rheological fluid, 0203 mechanical engineering, Range (aeronautics), 0502 economics and business, Computer Science (miscellaneous), lcsh:TJ1-1570, Electrical and Electronic Engineering, Steering damper, Damping torque, ARAS, 050210 logistics & transportation, Magneto-rheological fluid, Mechanical Engineering, 05 social sciences, motorcycle, wobble, ADAS, Steering column, Wobble, Sizing, 020303 mechanical engineering & transports, Control and Systems Engineering, Motorcycle, Magnetorheological fluid, Safety

Abstract

Powered-two-wheelers (PTWs) are increasingly popular because of their lower cost compared to cars, and therefore the riders&rsquo, exposure risk is increasing. Due to their complex dynamics characterized by high non-linearity and inherent instability, PTWs are more difficult to control compared to four-wheeled vehicles. Wobble is a high-frequency instability mode affecting the steering assembly of the PTW, and which often causes the rider to lose control and crash when it occurs. In this paper, we present the design of a new motorcycle semi-active steering damper integrated into the steering column and utilizing a magnetorheological fluid (MRF) for variable damping torque. An analytical model of the concept was first used to perform the preliminary sizing, followed by concept validation using a 3D FE multiphysics magnetic-fluid analysis. The final innovative design offers several advantages compared to traditional steering dampers: (i) a wide range of adjustable damping torque values, with a multiplication factor up to 10 with a maximum electrical current of 2 A, (ii) total integration into the motorcycle steering column enabled by its axial design and limited radius, (iii) a simple chamber geometry that allows for easy manufacture, (iv) longer seal life due to the absence of direct contact between seals and the MRF.

Published

2020

7. Assessment of the effect of motorcycle autonomous emergency braking (MAEB) based on real-world crashes.

Author

Piantini S, Aathresh VN, Savino G, and Pierini M

Subjects

Humans, Protective Devices, Accidents, Traffic, Computer Simulation, Italy epidemiology, Motorcycles, Wounds and Injuries

Abstract

Objective: Vehicles are increasingly being equipped with Autonomous Emergency Braking (AEB) and literature highlights the utility to fit a similar active safety system in Powered Two-Wheelers (PTWs). This research attempts to analyze the efficacy of PTW Autonomous Emergency Braking (MAEB) when functioning solely, and in the case where both the PTW and Opponent Vehicle (OV) have AEB installed. Methods: 23 crashes involving motorcyclists that occurred in metropolitan areas of Italy between 2009 and 2017 were selected. The "In-depth Study of road Accidents in FlorencE (InSAFE)" provides data for the study. Each crash was reconstructed in PC-Crash 12.1 software. The obtained simulation of the crash dynamics was then used to create the dataset of cases fitted with AEB and MAEB systems. A custom MAEB system was implemented with specifications based on literature. Results: The majority of crashes occurred on urban roads, at intersections, on dry asphalt, with clear visibility, and in daylight. The passenger vehicle was the most frequent opponent vehicle (70%). Almost half the sample involved the PTW rider traveling beyond the speed limit permitted on urban roads. MAEB was found to be applicable in 19 out of 23 real-world crashes allowing the avoidance of two crashes with the progressive triggering criteria (Time to Collision (TTC) - 1.0 s) and one crash in the case where both the PTW and OV have AEB installed with more conservative setups. MAEB simulations show important trends in the reduction of the PTW impact speed (ISR) from the conservative (TTC-0.6s) to standard (TTC-0.8s) to progressive (TTC-1.0s) triggering criteria. The mean impact speed reduction (ISR) becomes 8.6 km/h, 13.8 km/h, 19.1 km/h, respectively. Conclusions: The results suggested that MAEB may be extremely effective in the PTW impact speed reduction and that an earlier MAEB intervention is beneficial in achieving higher reductions in the PTW impact speed. Further, the effect of opponent vehicles also possessing AEB was studied, and it was found that this increased the likelihood of crash avoidance and greater reduction in crash severity in unavoidable circumstances.

Published

2022

8. Motorcycle helmet selection and usage for improved safety: A systematic review on the protective effects of helmet type and fastening.

Author

Lucci C, Piantini S, Savino G, and Pierini M

Subjects

Accidents, Traffic mortality, Adult, Craniocerebral Trauma prevention & control, Facial Injuries prevention & control, Humans, Male, Protective Devices statistics & numerical data, Young Adult, Accidents, Traffic prevention & control, Head Protective Devices statistics & numerical data, Motorcycles statistics & numerical data, Spinal Injuries prevention & control

Abstract

Objective: Motorcycle helmets are the most common and effective protective device to reduce head injuries and mortality in crashes among powered two-wheeler riders. Even if they are globally recognized as effective, there are still concerns regarding their correct use, which is necessary to achieve maximum head protection. The goal of this systematic review is to assess which characteristics of helmet design and use showed a positive influence on rider safety, in order to provide insights to improve end-user helmet usage., Methods: A literature search was carried out combining two sets of keywords, one related with either motorcycle or rider and the other referring to either protective equipment or injuries. After the exclusion of duplicates, 977 papers were screened by reviewers, thus identifying 32 papers that were analyzed in group discussions., Results: Among the papers included in this study, no strong conflicting conclusions emerged in their results. The studies focusing on the use of different types of helmets highlighted that full-face helmets, compared with other standard helmets, have a positive influence on head injuries and facial injuries. Correct fastening was clearly beneficial for head and facial injuries, induced injuries, and helmet ejection., Conclusions: This systematic review provides important insights to improve the usage of helmets by end-users. Correct fastening is a crucial factor to avoid helmet roll-off during a crash. Most studies agreed that full-face helmets provide higher protection in comparison with other standard helmets, especially for facial injuries, and no negative influence with respect to neck and spinal injuries.

Published

2021

9. A New NT4 Peptide-Based Drug Delivery System for Cancer Treatment.

Author

Brunetti J, Piantini S, Fragai M, Scali S, Cipriani G, Depau L, Pini A, Falciani C, Menichetti S, and Bracci L

Subjects

Adenocarcinoma metabolism, Adenocarcinoma pathology, Colonic Neoplasms metabolism, Colonic Neoplasms pathology, HT29 Cells, Humans, Adenocarcinoma drug therapy, Colonic Neoplasms drug therapy, Drug Delivery Systems, Paclitaxel chemistry, Paclitaxel pharmacology, Peptides chemistry, Peptides pharmacology, Quantum Dots chemistry, Quantum Dots therapeutic use

Abstract

The development of selective tumor targeting agents to deliver multiple units of chemotherapy drugs to cancer tissue would improve treatment efficacy and greatly advance progress in cancer therapy. Here we report a new drug delivery system based on a tetrabranched peptide known as NT4, which is a promising cancer theranostic by virtue of its high cancer selectivity. We developed NT4 directly conjugated with one, two, or three units of paclitaxel and an NT4-based nanosystem, using NIR-emitting quantum dots, loaded with the NT4 tumor-targeting agent and conjugated with paclitaxel, to obtain a NT4-QD-PTX nanodevice designed to simultaneously detect and kill tumor cells. The selective binding and in vitro cytotoxicity of NT4-QD-PTX were higher than for unlabeled QD-PTX when tested on the human colon adenocarcinoma cell line HT-29. NT4-QD-PTX tumor-targeted nanoparticles can be considered promising for early tumor detection and for the development of effective treatments combining simultaneous therapy and diagnosis.

Published

2020

10. Comparing consequences of using two different definitions for body regions for the improvement of personal protective equipment for powered two-wheelers.

Author

Schick S, Piantini S, Wisch M, and Brown J

Subjects

European Union, Abbreviated Injury Scale, Accidents, Traffic statistics & numerical data, Personal Protective Equipment standards, Terminology as Topic

Abstract

Objective: Various definitions and uses of the term body region can be found in the literature. A definition of body regions using the Abbreviated Injury Scale (AIS) codes not strictly aligned with AIS chapters was developed for use in the European Commission-funded PIONEERS project (Protective Innovations of New Equipment for Enhanced Rider Safety). This work aims to examine the consequences of differently defined body regions on injury priority ranking using the percentage of patients showing at least moderate injury severity (AIS 2+) per regarded body region. Methods: Three different crash investigation data sets of injured riders and/or pillion riders of powered 2-wheelers (PTWs) were used for this analysis. The first contained data for 143 fatalities, the second contained data for 58 severely injured, and the last for contained data for 982 patients from a sample that was close to national representativeness. Frequency of injury was examined using body regions based on the AIS chapters (and first digit of the AIS Unique Identifier) and based on the PIONEERS definition. Results: Though different body region definitions did not result in different top-ranked body regions in terms of injury frequency, different definitions did provide different levels of information that impact priority within AIS chapter-defined regions. For PTW riders, cervical injuries are the highest priority spinal injuries. Thoracic and lumbar spinal injuries seem to occur together with other injuries in the thorax and abdominal region. Severe lower extremity injuries frequently involve the pelvis and the leg. Conclusions: Body regions need to be defined carefully to avoid misinterpretations. Publications that use body regions for their analysis to present injury frequencies should clearly define what they include in each region.

Published

2019

11. Motorcycle That See: Multifocal Stereo Vision Sensor for Advanced Safety Systems in Tilting Vehicles.

Author

Gil G, Savino G, Piantini S, and Pierini M

Abstract

Advanced driver assistance systems, ADAS, have shown the possibility to anticipate crash accidents and effectively assist road users in critical traffic situations. This is not the case for motorcyclists, in fact ADAS for motorcycles are still barely developed. Our aim was to study a camera-based sensor for the application of preventive safety in tilting vehicles. We identified two road conflict situations for which automotive remote sensors installed in a tilting vehicle are likely to fail in the identification of critical obstacles. Accordingly, we set two experiments conducted in real traffic conditions to test our stereo vision sensor. Our promising results support the application of this type of sensors for advanced motorcycle safety applications.

Published

2018

12. Are automatic systems the future of motorcycle safety? A novel methodology to prioritize potential safety solutions based on their projected effectiveness.

Author

Gil G, Savino G, Piantini S, Baldanzini N, Happee R, and Pierini M

Subjects

Accidents, Traffic statistics & numerical data, Databases, Factual, Forecasting, Humans, Italy, Accidents, Traffic prevention & control, Motorcycles, Protective Devices trends, Safety

Abstract

Objective: Motorcycle riders are involved in significantly more crashes per kilometer driven than passenger car drivers. Nonetheless, the development and implementation of motorcycle safety systems lags far behind that of passenger cars. This research addresses the identification of the most effective motorcycle safety solutions in the context of different countries., Methods: A knowledge-based system of motorcycle safety (KBMS) was developed to assess the potential for various safety solutions to mitigate or avoid motorcycle crashes. First, a set of 26 common crash scenarios was identified from the analysis of multiple crash databases. Second, the relative effectiveness of 10 safety solutions was assessed for the 26 crash scenarios by a panel of experts. Third, relevant information about crashes was used to weigh the importance of each crash scenario in the region studied. The KBMS method was applied with an Italian database, with a total of more than 1 million motorcycle crashes in the period 2000-2012., Results: When applied to the Italian context, the KBMS suggested that automatic systems designed to compensate for riders' or drivers' errors of commission or omission are the potentially most effective safety solution. The KBMS method showed an effective way to compare the potential of various safety solutions, through a scored list with the expected effectiveness of each safety solution for the region to which the crash data belong. A comparison of our results with a previous study that attempted a systematic prioritization of safety systems for motorcycles (PISa project) showed an encouraging agreement., Conclusions: Current results revealed that automatic systems have the greatest potential to improve motorcycle safety. Accumulating and encoding expertise in crash analysis from a range of disciplines into a scalable and reusable analytical tool, as proposed with the use of KBMS, has the potential to guide research and development of effective safety systems. As the expert assessment of the crash scenarios is decoupled from the regional crash database, the expert assessment may be reutilized, thereby allowing rapid reanalysis when new crash data become available. In addition, the KBMS methodology has potential application to injury forecasting, driver/rider training strategies, and redesign of existing road infrastructure.

Published

2017

13. The influence of vehicle front-end design on pedestrian ground impact.

Author

Crocetta G, Piantini S, Pierini M, and Simms C

Subjects

Adult, Child, Craniocerebral Trauma etiology, Equipment Design adverse effects, Female, Humans, Male, Models, Theoretical, Accidents, Traffic statistics & numerical data, Craniocerebral Trauma epidemiology, Motor Vehicles statistics & numerical data, Pedestrians statistics & numerical data, Walking injuries

Abstract

Accident data have shown that in pedestrian accidents with high-fronted vehicles (SUVs and vans) the risk of pedestrian head injuries from the contact with the ground is higher than with low-fronted vehicles (passenger cars). However, the reasons for this remain poorly understood. This paper addresses this question using multibody modelling to investigate the influence of vehicle front height and shape in pedestrian accidents on the mechanism of impact with the ground and on head ground impact speed. To this end, a set of 648 pedestrian/vehicle crash simulations was carried out using the MADYMO multibody simulation software. Impacts were simulated with six vehicle types at three impact speeds (20, 30, 40km/h) and three pedestrian types (50th % male, 5th % female, and 6-year-old child) at six different initial stance configurations, stationary and walking at 1.4m/s. Six different ground impact mechanisms, distinguished from each other by the manner in which the pedestrian impacted the ground, were identified. These configurations have statistically distinct and considerably different distributions of head-ground impact speeds. Pedestrian initial stance configuration (gait and walking speed) introduced a high variability to the head-ground impact speed. Nonetheless, the head-ground impact speed varied significantly between the different ground impact mechanisms identified and the distribution of impact mechanisms was strongly associated with vehicle type. In general, impact mechanisms for adults resulting in a head-first contact with the ground were more severe with high fronted vehicles compared to low fronted vehicles, though there is a speed dependency to these findings. With high fronted vehicles (SUVs and vans) the pedestrian was mainly pushed forward and for children this resulted in high head ground contact speeds., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015