The government believes that motorists using highways should have a choice of payments, rather than be forced to use only RFID (Radio Frequency IDentification). This was decided after a Cabinet meeting yesterday and was announced by the Prime Minister who was responding to the congestion that was caused when PLUS, the major toll concessionaire in Malaysia, introduced RFID for Electronic Toll Payment (ETP) on the entire length of its North-South Expressway from last Saturday.
Various factors appear to have contributed to the massive congestion, from the reduced number of lanes for other ETP methods (ie the Touch ‘n Go card being tapped on a reader and the contactless SmartTAG with the TnG card) to failure of the RFID sensors to detect the tags on the vehicles, as well as confusion due to some (or all) SmartTAG lanes being converted to RFID lanes. Improper placement of the RFID tags, which are very tiny devices, has also been identified as a possible cause for non-detection and it is possible some of the tags, priced at RM35 (although it is known that they cost less than RM1) each, may be defective.
The two locations for sticking the RFID tags/ They are on the outside surface so they will be exposed and motorists are concerned about durability in the long-term. Care has also to be taken at automatic carwashes where the brushes could damage or even rub off the RFID tag. A replacement costs RM35 at this time.Non-detection of the RFID tag is among the reasons that have caused the massive congestion at toll plazas and PLUS has stationed personnel with handheld devices to check on the device function.
“The Cabinet, in its meeting today, is of the view that road-users must be given a choice, just like how it was practiced when Touch ‘n Go was introduced in its early years and cash payments were still allowed to continue. Users must be given the freedom whether to use RFID, Touch ‘n Go or SmartTAG,” said the Prime Minister.
He said that the toll concessionaires should not make all lanes use only the RFID method. “If there are 10 lanes, maybe several lanes for RFID and the rest should be for TnG and SmartTAG. We don’t want to pressure motorists,” he said, adding that any matter regarding toll payments by Malaysians will need to be referred to the Cabinet.
Like the SmartTAG, the RFID method also allows contactless ETP but uses the radio frequency for its signal instead of infrared (IR) that is used by the SmartTAG (which requires a TnG card to be present in the unit). PLUS claims that RFID offers quicker processing (but the vehicle must not travel faster than 30 km/h through the lane) without the vehicle having to stop for detection. However, the IR system does not require motorists to stop either, as millions of motorists will know. In places like Germany which use the IR system, vehicles can pass under the sensors (no toll plazas needed) at up to 100 km/h because they do not have to stop for the barrier to open.
Toll collection in Germany using the infra-red system similar to that used for the SmartTAG in Malaysia.
“In Germany, the Nationwide Truck Tolling System installed on all highways in a Multi-Lane Free Flow (MLFF) configuration has proven to be highly effective, catering to more than two million trucks travelling at up to 100 km/h. It uses a similar IR technology like in Malaysia to validate payment. We have also successfully replicated this test in Malaysia. Our SmartTAG compatible units comply with DSRC (Dedicated Short-Range Communication) standards and are ECE R10 certified. They operate in the 400THz band and are therefore able to transfer data 10,000 times faster than RFID. Being battery-powered, every unit is active with a wake-up time of just two milliseconds compared to the passive RFID’s 45 milliseconds,” said EFKON Asia, the Austrian technology provider that developed the IR-based toll collection system used on Malaysian highways.
According to PLUS, a SmartTAG lane can allow up to 1,000 vehicles through in an hour (550 with manual tapping). With RFID, PLUS claims that the processing rate can be faster and they state a speed of about 1,200 vehicles an hour. But that claimed quicker rate of processing is nullified since in both methods, vehicles still have to wait for the barrier to rise. Unless there is some innovation that can make the barrier rise faster in the RFID lane than in the SmartTAG lane, the pass-through rate will be the same.
No toll plazas on Singapore roads to cause congestion; motorists pay toll electronically when they enter the Central Business District where there are varying charges throughout the day.
Why does there need to be a barrier when, in other countries, they have already done away with the barrier? In Singapore, for example, their toll collection for the road pricing system (ERP) around the Central Business District is done without barriers and vehicles just drive under gantries and their payment is electronically collected. While the system used is a different type (wireless shortwave), the point is that they do not need barriers which slow down traffic flow. According to PLUS, they still need to have a barrier as there is no legal framework yet to protect their interests.
PLUS is promoting RFID as the first step towards the Multi Lane Free Flow (MLFF) system in future which will have no barriers and therefore eliminate congestion in places where toll has to be collected. However, there is no clear evidence that continued use of the SmartTAG method cannot also achieve MLFF. RFID requires further new investments – not to mention motorists having to spend again to install a new ETP system – whereas the IR system is already in place and runs reasonably reliably.
The toll plaza along the Federal Highway near Subang Jaya which was set up in the 1990s and removed just before the last General Election. Although its removal should have speeded up traffic flow, the situation today seems to be even more congested as traffic builds up more quickly at the bottleneck further down the road (near the Subang Jaya turnoff).
But whether removal of a barrier and even the whole toll plaza will allow traffic to flow more smoothly and remove congestion is uncertain if you look at one example where it has happened. This is the toll plaza near Subang Jaya in Selangor which was set up in the 1990s and then removed some years ago, just before a General Election. It seems that even with no toll collection being done, there is still congestion on that stretch so it is no different from before. In fact, some feel that when there was a toll plaza, at least the traffic flow was regulated and was slightly better on the other side of the toll plaza.
In a consumer society, choices and freedom of choices are important elements. Consumers will choose what they believe to be the best for their needs and in the case of ETP, there will be some who may even prefer cash payment. These could be people living in rural areas who travel on highways infrequently and who do not want their money stuck in some e-wallet, or spend money buying a SmartTAG that they will use only once a month. Many may like the TnG card since it can not only be used for ETP but also for parking and even travel on public transport. The RFID system may have a few advantages but for now, it seems that all it can be used for is ETP, which makes it poor value for money.
The future of the auto industry is electric and Proton does not intend to be left behind. Soon, electric vehicles may appear in Proton showrooms although they may not be Proton products. The Malaysian carmaker has signed a Memorandum of Agreement (MOA) with China’s smart Automobile Company (smart) which is a joint-venture company between Mercedes-Benz AG and Zhejiang Geely Holding Group, the parent company of Proton.
The agreement will see Proton collaborating via Proton Edar with smart to introduce the latter’s range of New Energy Vehicles (NEV) into the ASEAN automotive market. For a start, Proton Edar will be appointed as the importer, distributor and dealer for smart in Malaysia and Thailand. smart Automobile (Nanning) Sales Co. Ltd. (a fully owned subsidiary of smart Automobile), will fulfil the role of a gateway for smart to the region.
NEVs are battery electric vehicles (BEVs) which are a new generation of vehicles that will be designed by the Mercedes-Benz Design network and developed by the Geely global engineering network. Production is in China for global markets. As part of the vehicle-development program, the smart product portfolio will be extended into the fast-growing B-segment that are in line with smart’s brand positioning with a focus on pure premium electric and connected vehicles.
“With the signing of the MoA, Proton is taking its first steps on its New Energy Vehicle strategic journey. By collaborating with smart, we will be able to gain experience in the selling, servicing, and charging of NEVs and build up the skill sets we require to be a force in ASEAN’s rapidly expanding NEV sector. This is also an opportunity to tap on smart’s customer base, which will open up more opportunities for the Proton brand,” said Dato’ Sri Syed Faisal Albar, Chairman of Proton.
Marketing in Malaysia and Thailand
The MoA with Proton Edar is for the company to establish a multi-level sales and service network in Malaysia and Thailand, as well as a brand experience centre and a number of sales locations, providing the two markets with sales and aftersales services for smart vehicles.
From the description of the MoA, it does not appear that there is any technical collaboration such as transfer of technology or product development and the statement also stresses that ‘currently, there are no plans to collaborate beyond the tenets of the agreement’. This would mean that smart vehicles will be imported and distributed by Proton Edar as an additional business activity, and the vehicles will also not use the Proton brand.
However, as mentioned by the Proton Chairman, it will be an opportunity for the carmaker to gain experience and knowledge about electrification and BEVs which it would also have to offer at some point in the future. Whether the relationship with smart evolves into something broader (eg joint product development) remains to be seen.
The Proton EMAS city car concept by Giugiaro in 2010 was proposed with a hybrid electric powertrain.
Electrically-powered cars are not unknown at Proton. In the 1990s, the first known project was initiated with a company in California to develop electric Wiras, but it never went far. Then, eleven years ago, the company’s EMAS prototype city car proposed by Giugiaro had a hybrid electric powertrain. It has also done R&D on electric powertrains over the past 10 years but has not brought a model to the market.
Proton Saga EV prototype displayed in 2012.
History of smart brand
As for smart, the name may be familiar to some Malaysians as the original smart cars were sold in the mid-2000s, imported by DaimlerChrysler Malaysia (now Mercedes-Benz Malaysia). The smart company (which was founded by the man who created the Swatch watches) had been acquired by Mercedes-Benz which invested heavily to make city cars. However, it may have been a bit ahead of its time and though having a clever design (the vehicles used combustion engines), the relatively high prices and compact size were not so appealing globally. Perhaps the Japanese would have appreciated it but they already had their own kei cars.
Mercedes-Benz tried to make the smart business work and even tried to offer a larger model called the smart forfour that sat on a Mitsubishi Colt platform. That too didn’t sell too well and smart as a company was closed down, with the products being placed under the Mercedes-Benz division up to 2019. To try to keep the brand going, Mercedes-Benz formed a partnership with Geely which would see smart-branded vehicles – using electric powertrains – being developed and produced in China for sale globally.
The original smart cars were sold in Malaysia in the mid-2000s by DaimlerChrysler Malaysia (now Mercedes-Benz Malaysia).
“The smart brand has a unique value and global influence, it has grown to be a leader in urban mobility. Geely Holding will fully support the smart brand with its full advantages in R&D, manufacturing, supply chain and other fields into the joint venture and support its development in China and globally. We will work together with Mercedes-Benz to transform the smart brand into a leading player in urban premium, electric and connected vehicles to successfully develop the brand’s global potential,” said Li Shufu, Geely Holding Chairman.
On the night of Saturday, January 15, 2022, officials of PLUS gathered to await the first vehicles that would pass through the toll plaza using the RFID (Radio Frequency IDentification) method of electronic toll payment (ETP). The ETP ‘system of the future’ had started its pilot run in 2018 and was already in use in certain places in Peninsular Malaysia. It would now be available to motorists travelling on the entire length of the North-South Expressway from Juru in the north to Skudai in Johor.
PLUS was promoting RFID as the successor to the SmartTAG, the infrared (IR)-based contactless method that had been in use for a long time in conjunction with the Touch ‘n Go stored value tollcard. Although the SmartTAG’s IR system has been used longer, it is not necessarily obsolete and in places like Germany, it can handle pass-through speeds of up to 100 km/h (without a barrier being present, of course). However, in spite of the long and big investment in the TnG/SmartTAG systems that have matured and are generally reliable, PLUS has made a decision to again invest in changing to RFID which it says is faster and more efficient, thereby benefitting motorists and reducing congestion.
PLUS also says that adoption of RFID will allow it to move towards, first, a Single Lane Free Flow system and ultimately, a Multi Lane Free Flow (MLFF) system without barriers. MLFF is what Malaysian motorists experience when they drive in Singapore and pass under the ERP (Electronic Road Pricing) gantries where a charge is automatically deducted. It has been in use for a long time although PLUS says that it is not fair to make comparisons as it is not ‘apples compared with apples’.
Prior to January 15, PLUS had announced that RFID would be activated at all its toll plazas from the date and would eventually replace the previous systems. It did not actually say that those existing systems would be stopped on that date but some people misread the announcement and started to spread word through social media that the TnG/SmartTAG system would stop on January 15. This naturally caused an uproar as there are some 5 million SmartTAG devices in use (with 84 million TnG cards sold to date). Apart from a reluctance to switch over by some, there was also the matter of supply and installation.
PLUS had to quickly clarify that the existing systems would still be available and that RFID would be a new and recommended alternative form of ETP at its toll plazas. In other words, there was no need to worry that come January 15, many motorists would be unable to get through the toll plazas if they did not have RFID. Meanwhile, PLUS had to slot in RFID lanes and since the toll plazas are pretty much fixed in width, certain lanes would have to be converted. Perhaps it could have done like in some places where a secondary row is built beyond the original plaza but that would have required additional investment which might not have been acceptable in this early phase of RFID. In any case, they went ahead to convert some lanes, and in some places, SmartTAG lanes were eliminated, leaving only the slower manual system of tapping the card on the reader (about half the pass-through rate compared to RFID).
As the activation of RFID occurred on a Saturday night and the next day was Sunday, which has generally lower traffic volumes on the highways, it seemed that the new system was working fine. Motorists with RFID tags were able to drive through (maximum speed: 30 km/h) and in the same way as with the SmartTAG, the charge would be deducted electronically and the barrier would swing up to allow them to proceed on their way. Even if RFID is claimed to have a faster response time, with that mechanical barrier, it’s hard to see how driving through in the RFID lane could be any faster than the SmartTAG lane.
Then came Monday morning and things looked horribly different. Though we all don’t want the MCO again, motorists caught in the unusually long queues – one said to stretch 10 kms – towards toll plazas must have wished for WFH (work from home) again. Apart from the confusion of lanes having been converted, the absence of SmartTAG lanes in some places would also have frustrated motorists used to having relatively smooth passage through the toll plaza without stopping (albeit in a queue). Now, all those without RFID had to stop and tap manually or if there were some SmartTAG lanes, the queue was longer since some had been taken away for RFID.
Not surprisingly, news of the mess appeared on social media very quickly. To make things worse was the failure of the sensors to detect the RFID tags on some vehicles. This meant that they were stuck in the narrow lane, unable to reverse and let others go ahead. With SmartTAG, if there was a problem of non-detection and reversing was not possible, the driver still has the option of taking the card out and tapping on the reader at the side. 100% of the time, this will bring the barrier up unless the balance is too low.
With social media, particularly Facebook, such happenings become known nationally within a very short time. The PLUS Facebook page was bombarded with complaints and criticisms and individuals also posted pictures of cars being stuck in long jams. Hopefully, employers were understanding enough to accept the explanation for lateness being blamed on PLUS.
Throughout the day and night and up till today, PLUS seemed silent on the matter. In fact, it seemed like the company was indifferent to the matter, which caused more anger, as it spread the ‘positive news’ about the implementation of RFID, and Touch ‘n Go Malaysia even congratulated PLUS on the event. However, Works Minister Datuk Seri Fadillah Yusof did not do the same thing; instead, having become aware of the situation, he directed PLUS to resolve the issues quickly, softening the stern statement by saying that RFID technology is ‘a pioneering technology and there will be several issues that need to be addressed’.
The thing is, RFID as a concept has been around since World War II and since the beginning of this century, the tiny tag (which costs less than RM1 but is sold for RM35) has been used in many different kinds of industries which need a tracking solution, including the transport industry. It could even be considered a mature technology, like the IR technology used for the SmartTAG and whatever local issues there were should have been addressed during the past 3 years that it has been in actual use.
Perhaps in all the trials, the traffic volume was small, so the environment was different from a full-scale deployment. The system might not have been ‘stress-tested’ for continuous rush-hour traffic passing through every second so it may not have been ‘tuned’ to cope. But that’s just speculation on our part, we must add.
Prior to January 15, during a session with the media, PLUS gave assurance that they would be ready for any ‘hiccups’ during implementation and there would be staff on standby to assist if detection failed. While this would be expected for any new system, it is evident from the long queue that there must have been a high failure rate that even that stand-by procedure could not prevent.
There are many reports of owners puzzled and frustrated by their RFID tag not being detected. Unlike the SmartTAG which many hold in their hand and can sometimes be at the wrong angle so the IR beam does not hit the sensor, the RFID tag is in a fixed position – on the top corner of the windscreen or on the headlight. It is stuck on the outside, so it is exposed to the sun and rain and dust. Hopefully, the quality is of the same standard as what carmakers have for their exterior parts as Malaysian motorists are fed up with the lousy quality of roadtax discs that don’t seem to stick properly (and they are on the inside of the glass).
In theory, the RFID tag (if it is working properly) should not fail although the vehicle must not be travelling faster than 30 km/h. It would be hard to go fast anyway with the barrier right in front. PLUS engineers would have done all the testing to determine optimum distances for the sensors and particularly ensuring that there would be no ‘collision’ of signals.
Correct placement of the RFID tag is important.
One thing that might cause the problems is improper placement and from what we have learnt, close proximity to metal surfaces (like the A-pillar) could cause interference and it is possible that some headlight designs might also cause problems. But if the installation was done by authorized professionals, then the placement should have been correct and initially, there were also machines to verify that the tag was working properly.
However, to make things easier, the RFID tags have also been available for sale to the public so they can install it themselves. It’s not really that difficult (like sticking on the roadtax disc) so many may have chosen that option and done it themselves. Some may not have done it properly, hence the problems. So it is best to go to an installation centre and have a professional do it. If it doesn’t work, you can go back and demand rectification or replacement. Otherwise, you have to come out with another RM35 for a new one.
Besides going to the Fitment Centres, motorists can also purchase the RFID tag online and attach it to the headlight or windscreen themselves. The price is the same as at the Fitment Centre but you probably have to pay a delivery charge.
PLUS is well aware of the detection issues and in its announcement today, it said that the personnel will use a handheld device to scan the RFID tag. Should the tag still remain undetectable, a coupon for a full detection diagnosis at a Touch ‘n Go fitment centre will be provided. If the RFID tag still has detection issues after testing, Touch ‘n Go will replace the RFID tag for free. If it is a placement issue, guess you have to spend another RM35 for a new one as the tag is not designed to be removed after being installed.
The fact that the RFID tag, unlike a TnG card, is tied to a specific vehicle has not been well accepted. In our case (which is really a very small group), we test different vehicles regularly. A few companies are kind enough to provide a TnG card to use but most of the time, we just use our own. With a RFID tag, how will we settle the toll charge as the account linked to it is not in our control? It’s an issue we have not figured out yet.
Rental car companies would also be unhappy as they will need to find a way to settle toll charges with the customer as each vehicle they rent has a specific tag. Will they ask the customer to pay a deposit? Or should the customer pay RM35 and buy their own RFID TAG and fix it, which may be troublesome for a tourist who does not have a bank account in Malaysia.
Although the Touch’nGo card was initially only for toll payment, its usage has grown and can today be used to pay for other services such as parking and public transport. Will RFID offer such flexible usage?
The inflexibility of the RFID tag also makes it less appealing to motorists. Over the past 10 years, TnG has been promoted as not only being for toll payment but for an increasing number of services. Malaysians have come to accept it as a convenient form of cashless payment for travelling on public transport and parking. It can be considered a successful implementation of a new payment process and it has a lot of flexibility. For example, you can pass a card to another family member to use. With the RFID tag, it seems that its only use is for ETP and for specific vehicles, unless one day, they say that if you agree to stick it on your face, you can also use it for travel on public transport.
In just two days, PLUS has caused a great deal of anger to those who use its highways but the company seems indifferent to this fact, as can be seen from its statement today. There is not a word of apology for the inconvenience caused but rather a suggestion that the introduction has gone well and they have seen 10% greater usage of RFID.
To make matters worse, our friends at Pandulaju discovered that the company had stopped allowing the public to post comments on its Facebook page. Although the decision was apparently reversed later and comments can be posted, it further angered the public who felt that the company was not willing to face criticism.
Instead, PLUS suggested that the public give them feedback using their own channel on their website and app which is called P.U.T.R.I. and uses a chatbot. This takes all the negative remarks away from the public eye, of course. The chatbot is not really a good thing to use as it is programmed to respond in specific ways, while attempting to give the ‘feel’ of interacting with a human. If you tell ‘her’ that you are unhappy with the RFID system, you will find that the responses will make you tear your hair out. But PUTRI is humble and promises to ‘be smarter’, but just cannot offer help in taking the complaint. [Click here to view an example of interaction with PUTRI]
So what’s going to happen in the coming days? Today being a holiday, traffic has been less but tomorrow, it is likely that many will decide not to risk using the RFID lane and choose the TnG or SmartTAG lanes. As there are now less lanes than before, the jams will be worse than before. The RFID lanes will seem to be the faster route so the ‘optics’ will be good for PLUS which can say ‘those were just teething problems and now you can see that cars pass through fast enough that there are no jams’.
If PLUS has full confidence in the RFID system being superior and has high detection rate, then remove the barriers and let vehicles pass through smoothly, like in Singapore. It will definitely encourage many motorists to switch over.
Admittedly, this article has been critical and we are often told that solutions should also be offered when complaining that something is wrong or not working. So here’s our suggestion: if PLUS is confident with the RFID system, then remove the barrier and allow vehicles to pass through and use the system as it was intended. If detection fails, then it is not the fault of the motorist and PLUS will just have to accept the loss of the toll charge. If nothing else, this would certainly inspire the tech side or the supplier of the system to ensure 99.9% detection since non-detection of too many vehicles would lose a lot of money for the company.
Vaccination does not make you immune to COVID-19 infection. You can still get infected and although you may not show symptoms, you could spread the coronavirus to others. Do not stop taking protective measures such as wearing a facemask, washing hands frequently and social distancing.
Ever since the radio could be installed in a car, entertainment while motoring has been constantly evolving in tandem with the technologies of different decades. What used to be audio systems before are now called infotainment systems – providing a combination of information and entertainment of different kinds.
In the old days, a radio in the car was the only form of entertainment on a long journey.
In time, we’ll be travelling in cars that can operate on their own, driving safely to wherever we want to go. Without the need to control the car or even pay attention to the road ahead, the driver will have more time to do other things – read a book, watch a movie, listen to music or even play videogames. Such a scenario means that infotainment systems in cars will have to change and provide even more features and capabilities.
Volvo is already starting on this evolution and is developing next-generation infotainment systems that can be offered in the near future. For example, using Qualcomm Technologies’ Snapdragon Cockpit Platforms takes the carmaker’s Google Android Automotive-based infotainment system to the next level. By leveraging Volvo Cars’ and technology firm Qualcomm’s in-house R&D competence, the companies will improve the overall capability of Volvos powered by Google Android to become faster and more responsive.
Qualcomm’s Snapdragon Cockpit Platforms is designed to be a central hub for high-performance computing. It is capable of fulfilling highly demanding graphics, audio and artificial intelligence requirements in the forthcoming Polestar 3 SUV and Volvo Cars’ upcoming fully electric SUV, all while having a very low power consumption. Using the latest Snapdragon Automotive Platforms, the next generation infotainment system will be more than twice as fast, while graphics generation will be up to 10 times faster.
The continued partnership between Volvo Cars and Google will also see Volvo being the first carmaker to directly integrate its cars with Google Assistant-enabled devices. This integration basically turns cars into smart devices.
This planned direct integration allows for a seamless connection between Google Assistant and cars to date, letting Volvo drivers control functions in their car by issuing voice commands to Google Assistant-enabled home and mobile devices. By pairing their car with their Google account, drivers can directly talk to Google in their car and remotely control a variety of functionalities, such as cooling it down on a hot day or just locking the doors in case they forgot to do so.
Video Player
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“Volvo Car Group was first to introduce Google technology and services in our cars and we are now looking to be the first to integrate fully with Google Assistant-enabled devices – it is a natural next step in our partnership with Google,” said Henrik Green, Chief Product Officer at Volvo Cars. “This integration allows us to improve the customer experience immensely, as it gives customers the possibility to easily and securely manage their car while at home or on the go, through any personal device that has Google Assistant.”
Finally, YouTube video playback will also come to all Volvo cars with Google built-in. YouTube will be the first video platform to be featured and available for download in Volvo cars on Google Play. This is the beginning of enabling video streaming in cars. Volvo is providing YouTube video as an enjoyable way to pass the time during stop with an EV to recharge. However, mindful of safety, videos will be allowed to be played only when the car is fully stationary.
“Allowing our customers to watch videos while charging or when waiting to pick up their children from school is part of our promise to make their lives better and more enjoyable,” said Green. “With YouTube and other major streaming services coming soon, our customers can enjoy their charging break instead of seeing it as just a hassle – making electric car ownership that bit easier.”
“The car is a great venue for enjoying video and audio, so I would not be surprised if this means that people spend more time in their Volvos, even when they are not going anywhere!” added Green.
DENSO, a company within the Toyota Group, has developed an improved version of its Global Safety Package which is an active safety system designed to improve the safety of vehicles by giving them high sensing capability of their surroundings. The system is already in use in many Toyota Group models and this latest third generation will be offered from now on.
The Global Safety Package uses the combined performance of a millimetre-wave radar sensor and vision sensor to obtain data on the various objects ahead of the vehicle. The radar sensor detects the shapes of road objects, such as vehicles and guardrails, while the vision sensor uses a camera to detect the environment ahead of the vehicle. This data is then analysed at high speed by an on-board computer which will determine the situation ahead and whether any warnings are to be given to the drive, or actions taken to prevent an accident.
Radar Sensor
In the new Global Safety Package, the radar has a wider detection angle, longer detection range, and improved speed resolution. There are also improvements such as in-antenna design and in radio wave transmission efficiency. The wider angle of coverage can help avoid collisions at intersections, whether with other vehicles or pedestrians.
The sensor’s wider horizontal field of view also assists adaptive cruise control and lane changes over a broader speed range. Moreover, the product uses artificial intelligence (AI) to improve sensing performance and assistance functions, such as headway distance control – the ability to maintain consistent distance between a preceding vehicle – and traffic sign recognition.
With reduced size and cost, this radar sensor has fewer installation requirements and can be used in more vehicle types and models. It uses fewer than half the number of parts compared to the previous generation. This has been achieved by integrating the antenna and power supply board, simplifying product structure and leveraging multiple-input and multiple-output (MIMO) technology, which allows for a smaller antenna with fewer channels to transmit and receive radio waves.
Vision sensor
The vision sensor is a high-sensitivity, high-resolution imager with a wider horizontal field of view and longer detection range. It employs AI technology to identify drivable areas, preceding vehicles, road signs, and other solid objects based on image data. Vehicles and pedestrians in all directions, including those ahead, behind, and to the side, can be detected.
Like the radar sensor, it has reduced size and cost. The downsizing was achieved by integrating image processing and system control functions, which reduced the number of microcomputers used. The structural design has also been adjusted to control heat emitted from the processor, while the lens design has been revised.
DENSO will continue to improve its active safety systems to eliminate road accidents and provide stress-free mobility. This will be done using cutting-edge technology with an underlying objective of pricing the systems attractively so they can be installed in more vehicles.
Like most Italian carmakers, Maserati has motorsport in its long history. Twelve years after its founding by the Maserati brothers, Alfieri, Ernesto and Ettore, the first racing car to bear the Trident logo was the Tipo 26 which was entered in the 1926 Targa Florio in Italy. It won first place in its class with Alfieri at the wheel.
During the 1920s and 1930s, the Maserati garage built racing cars for sale all over the world, while also producing road cars with the high performance demonstrated on the racetracks. 31 years after Alfieri’s first victory, Juan Manuel Fangio won the Formula 1 World Championship with a Maserati in 1957. The last time Maserati entered a single-seater was with Maria Teresa De Filippis, the first woman to qualify in F1, who drove a 250F.
Maserati’s last appearance in racing was during the first decade of the 21st century with the MC12. Its teams won 22 races and 14 Championship titles across Constructors’ Championships, Drivers’ Championships and Teams’ Championships in the FIA GT from 2004 to 2010.
In 2023, the brand will again be seen on the starting grid of races as it joins the ABB FIA Formula E World Championship in 2023 for Season 9. It will be the first Italian brand to compete in Formula E, the all-electric single-seater world championship that will be the 8th season this year.
Maserati will be the second brand in the Stellantis Group to participate in Formula E, the other being DS from the Citroen affiliate which has been racing since 2018. The company’s racing team is now developing a new racing car which conforms to the Gen3 regulations which will see the fastest, lightest and most powerful Formula E racing car ever. The Gen3 is the world’s most efficient racing car featuring a series of industry-leading design, production and technological innovations.
Maserati’s entry into Formula E is in line with its move and commitment to electric mobility. This strategy will see the introduction of Folgore, a new sub-brand that will have a range of battery electric vehicles (BEVs). Folgore versions will be available for the Grecale, GranTurismo and GranCabrio, as well as the MC20.
“We are very proud to be back where we belong as protagonists in the world of racing. We are powered by passion and innovative by nature. We have a long history of world-class excellence in competition and we are ready to drive performance in the future. In the race for more performance, luxury, and innovation, Folgore is irresistible and it is the purest expression of Maserati. That’s why we decided to go back to racing in the ABB FIA Formula E World Championship, meeting our customers in the city centers of the world, taking the Trident forward into the future,” said Davide Grasso, CEO of Maserati.
Maserati’s confirmed entry is good news for the event’s organizers with Audi, BMW and Mercedes-Benz ending their participation. McLaren has also indicated its interest in taking part in Formula E but has not given details of when they might start. With the accelerating impetus of electrification, some other brands might also see it useful to be in Formula E to show their strengths in the EV field.
Since inception in 2014, Formula E has provided dramatic racing action on the streets of cities around the world such as New York, Monaco, Berlin, Mexico City, London and Rome. For manufacturers like Nissan, Porsche, NIO, Mahindra, Jaguar, DS, BMW, Mercedes-Benz and Audi, developing cars for racing has led to finding new solutions in increasing energy efficiency, enhancements in battery range and advances in powertrain development.
In 2011, Lamborghini sold 1,602 supercars (there was no Urus then), not a record result but the numbers were still impressive considering the financial situation in many parts of the world that year. Ten years later, in 2021, the company delivered 8,405 vehicles worldwide, the highest number ever in the history of the company. In spite of the pandemic still ongoing, sales increased by 13% on 2020.
The contributor was double-digit growth in all 3 of the macro-regions where Lamborghini is established: America (+14%), Asia Pacific (+14%) and EMEA (Europe, Middle East and Africa, +12%). The company maintains a fairly balanced split between them in global volumes which stand at 35%, 27% and 39%, respectively.
Urus was bestselling Lamborghini model in 2021, accounting for 59% of total sales.
In terms of individual markets, the USA was still Lamborghini’s best market (2,472 units, +11%), while China moved into second place (935, +55%). They were followed by Germany (706, +16%) and the United Kingdom (564, +9%). There was also an increase in the figures for Lamborghini’s home market of Italy, where 359 cars were delivered in total (+3%).
Reflecting market trends, the most popular model was the Urus Super SUV, with 5,021 units delivered – almost 60% of the total volume in 2021. It was followed by the V10-powered Huracan, which saw a strong increase in sales up to 2,586, thanks to the strong impetus provided by the Huracan STO. In addition, 798 Aventadors (V12 model) were delivered all over the world.
Huracan STO experience in China, which became the carmaker’s second biggest market in 2021.
During the year, the company launched 3 new products – the Huracan STO – Super Trofeo Omologata, a road-legal model that was inspired by the Huracan Super Trofeo EVO and GT3 EVO racing cars; the Aventador Ultimae, final series of the Aventador model; and the Countach LPI 800-4, an unorthodox icon featuring ground-breaking design and technology that celebrated the 50th anniversary of one of the original supercars.
2021 also saw Lamborghini announcing its future electrification strategy. ‘Direzione Cor Tauri’ (Toward Cor Tauri) is the name of the path that will lead the company through the decarbonization of its future models and the manufacturing site. Throughout the product electrification process, there will be a constant focus on identifying technologies and solutions that can guarantee top performance and driving dynamics.
More than €1.5 billion will be spent over the course of 4 years, during which time Lamborghini will launch its first hybrid production model and electrify its entire range by the end of 2024. Subsequently, a fourth fully electric model is due to be added to the range in the second half of the decade.
“This record has provided confirmation of four factors for us: the solidity of our strategic plan, our brand’s outstanding international reputation, the competence and passion of our people and the exceptional professionalism and dynamism shown by our 173 dealers in 52 markets, who have continued to invest alongside us at a challenging, uncertain time,” said Stephan Winkelmann, Chairman & CEO of Automobili Lamborghini.
The sales outlook continues positively into the new year, thanks to a substantial order portfolio that already covers almost the entire production planned in 2022. Additionally, Lamborghini plans to introduce four new products during the coming 12 months.
“We are stronger than ever as we prepare to embark on a period of profound transformation and move towards an even more sustainable future. In 2022, we’ll be doing our utmost to consolidate the current performance and get ready for the arrival of our future hybrid range from 2023 onwards,” added Winkelmann.
Just as the 2022 Formula 1 World Championship will see the biggest changes in technical rules in some four decades, the 50th season of the World Rally Championship (WRC) will undergo major environmental changes as new FIA technical regulations drive the series towards a more sustainable future.
Under its PurposeDriven movement, the FIA is taking an innovation-led approach to deliver sustainable motorsport. One goal is to reach carbon neutrality by 2030. An even bigger revolution concerns the drivetrain, with hybrid technology mandatory for what are known as Rally1 cars. The plug-in hybrid unit, including all necessary components and software, will be common, with the potential for more freedom of development in 2024.
In the WRC’s first-ever rallycars with hybrid powertrains, an electric motor works together with the proven 1.6-litre turbocharged petrol engine. Rally1 cars will have up to 134 ps of additional power available in certain situations.
The unique Rally1 hybrid system has three principal modes: Full Electric Mode in which cars will have full electric range, Stage Start Mode when the system’s full power will be available, and Stage Mode in which teams and drivers will be able to create up to three personalised ‘maps’ to decide how to deploy the hybrid power. The system also provides the opportunity to reduce emissions locally via full electric driving on road sections in built-up areas.
Fundamental revisions to the technical regulations also see the top-tier Rally1 class for manufacturer teams bringing a substantial gain in crew safety with an upgraded safety cell chassis. There will also be more equality between competitors due to a new design approach.
Another milestone is the introduction of 100% sustainable fuel, a first for any FIA World Championship. Part of the FIA’s race-to-road strategy is to implement sustainable energy sources across its motorsport disciplines to reduce CO₂ emissions.
The renewable fuel from P1 Racing Fuels is a blend of synthetic and bio-derived components. This green fuel will be mandatory to all top-tier competitors at WRC events. In its development, P1 Racing Fuels will collaborate with global energy and chemical experts Aramco on the formulation of advanced-generation biofuels and sustainable synthetic fuels derived from captured CO2 and low-carbon hydrogen.
Fundamental revisions to the technical regulations also see the top-tier Rally1 class for manufacturer teams bringing a substantial gain in crew safety with an upgraded safety cell chassis. There will also be more equality between competitors due to a new design approach.
Introducing hybrid powertrains has been a key part in ensuring Toyota, Hyundai and M-Sport Ford are fully committed to the WRC from 2022 to 2024. All three teams have been testing their new cars which will debut in competition at the Rallye Monte-Carlo, the opening round of the 2022 season, next week.
(Above and below) Toyota GR Yaris Rally1
The new generation of Rally1 cars from the 3 manufacturers were shown together for the first time in Austria yesterday at a special ceremony that marked the beginning of a new era in rallying. In the presence of new FIA President Mohammed Ben Sulayem, reigning champions TOYOTA GAZOO Racing, Hyundai Motorsport and M-Sport Ford unveiled their all-new rallycars which will compete across 13 rounds on 4 continents.
(Above and below) Hyundai i20 N Rally1
(Above and below) M-Sport Ford Puma Hybrid Rally1
“Today’s launch of the new Rally1 era is a very proud and significant moment for the FIA and entire rally family and I would like to congratulate WRC Promoter for delivering a great show at the start of the championship’s 50th anniversary season,” said Ben Sulayem, a former WRC competitor himself. “The enthusiasm for the FIA’s new technical regulations has been very much in evidence in recent months and the event further underlined the momentum coming from the teams and manufacturers, with Rallye Monte-Carlo just a few days away.”
